Metabonomics SOP: Difference between revisions
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== Spectral Quality Assessment (FOM) == | == Spectral Quality Assessment (FOM) == | ||
== Operator Certification == | == Operator Certification == | ||
It is important to assess not only the variability arising from the specimen collection, sample preparation, NMR data collection and processing but also to evaluate the variability arising from the operator pursuing the SOP. The operator-associated variability can be used to decide if one is ‘certified’ to pursue NMR-based metabonomics research, or if further training is required. | |||
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#Read the Magn. Reson. Chem. 2009 paper (Sukumaran, DK; Garcia, E; Hua, J; Tabaczynski, W; Odunsi, O; Andrews, A; Szyperski, T. Standard operating procedure for metabonomics studies of blood serum and plasma samples using a 1H-NMR micro-flow probe. Magn. Reson. Chem. 2009, 47, S81-85) as an introduction to the certification procedure. | |||
#Read the Magn. Reson. Chem. 2009 paper (Sukumaran, DK; Garcia, E; Hua, J; Tabaczynski, W; Odunsi, O; Andrews, A; Szyperski, T. Standard operating procedure for metabonomics studies of blood serum and plasma samples using a 1H-NMR micro-flow probe. Magn. Reson. Chem. 2009, 47, S81-85) as an introduction to the certification procedure. | #Perform the necessary checks to ensure proper functioning of the instrumentation (see SOP for 1H NMR data acquisition, Section I) and evaluate performance of the spectrometer for biofluids (see SOP for 1H NMR data acquisition, Section II. | ||
#Perform the necessary checks to ensure proper functioning of the instrumentation (see SOP for 1H NMR data acquisition, Section I) and evaluate performance of the spectrometer for biofluids (see SOP for 1H NMR data acquisition, Section II. | #Acquire 1D 1H NOESY and 1D 1H CPMG spectra for fetal bovine serum (FBS) (or any other test samples provided there is ample number of spectra (at least about 10 spectra) acquired by a certified operator on the same spectrometer and the test samples you want to use were prepared as one batch with those used by the certified operator) that were prepared in the same batch as those that were used by the certified operator. Also, make sure that you use the same type of NMR tube as the ones used by the certified operator. The trainee should collect spectra for at least 5 FBS samples per set up. | ||
#Acquire 1D 1H NOESY and 1D 1H CPMG spectra for fetal bovine serum (FBS) (or any other test samples provided there is ample number of spectra (at least about 10 spectra) acquired by a certified operator on the same spectrometer and the test samples you want to use were prepared as one batch with those used by the certified operator) that were prepared in the same batch as those that were used by the certified operator. Also, make sure that you use the same type of NMR tube as the ones used by the certified operator. The trainee should collect spectra for at least 5 FBS samples per set up. | #Perform spectral quality assessment (see SOP for 1H NMR data acquisition, Section IV.4) after data collection for each sample. | ||
#Perform spectral quality assessment (see SOP for 1H NMR data acquisition, Section IV.4) after data collection for each sample. | #Process the 1D 1H NMR spectra (see SOP for data processing). Perform a PCA using SIMCA-P for your processed spectra and the spectra of a certified operator. | ||
#Process the 1D 1H NMR spectra (see SOP for data processing). Perform a PCA using SIMCA-P for your processed spectra and the spectra of a certified operator. | #Repeat steps 2 – 5 at least 3X wherein someone else uses the spectrometer in between your set ups. | ||
#Repeat steps 2 – 5 at least 3X wherein someone else uses the spectrometer in between your set ups. | #Certification is granted if all spectra from all set ups are indistinguishable from those acquired by the certified operator (i.e., your spectra should be scattered around the spectra of the certified operator within the 95 % ellipse of PCA score plots, see Figure 3.2.2 for example). | ||
#Certification is granted if all spectra from all set ups are indistinguishable from those acquired by the certified operator (i.e., your spectra should be scattered around the spectra of the certified operator within the 95 % ellipse of PCA score plots, see Figure 3.2.2 for example). | #Bin (bin size = 0.005 ppm, unless other specification is asked for) your processed spectra together with the spectra acquired by the certified operator and send it to the statisticians (Prof. Chris Andrews and Mr. Su Qian, Department of Biostatistics, University at Buffalo) for additional analysis (if necessary) and for certification confirmation. | ||
== Targeted Profiling--FOM[http://nmr2.buffalo.edu/bufweb/tiki-editpage.php?page=Targeted+Profiling--FOM ?] == | == Targeted Profiling--FOM[http://nmr2.buffalo.edu/bufweb/tiki-editpage.php?page=Targeted+Profiling--FOM ?] == |
Revision as of 17:33, 25 January 2012
Safety Protocols
Everyone working in the NMR laboratory in ‘Statler Commissary’ is expected to act professionally and environmentally responsible. Our laboratory is committed to minimize the risk of personal and environmental hazards involved in working with high-field magnets and handling biological fluids. Thus, the protocols herein are established. These protocols are specifically tailored to our laboratory and subject to change if better procedures are identified in minimizing such risks.
Contact information
Dr. Khalid Ahsan
- Chemistry Department Safety Officer
- ahsan@buffalo.edu
- 716-645-4115
Dr. Leonard Borzynski
- Manager, Biosafety Division
- Environment, Health & Safety (EH&S)
- lenb@buffalo.edu
- 716-829-3301; 716-829-2401 (sharps injury reporting)
University Police
- 716-645-2222
Mr. Ryan Sajdak
- PhD student
- rasajdak@buffalo.edu
- 716-474-1916
Ms. Victoire-Grace Karambizi
- MS student
- victoire@buffalo.edu
- 716-507-3880
Dr. Dinesh Sukumaran
- Director, NMR Center
- dks@buffalo.edu
- 716-725-1107
Dr. Thomas Szyperski
- Principal Investigator
- szypersk@buffalo.edu
- 716-472-7075
Szyperski Lab
- 716-645-4302, 716-645-4303, 716-645-4304, 716-645-4312
University at Buffalo Health Services
- 716-829-3316
Millard Fillmore Suburban Hospital
- 1540 Maple Road, Williamsville, NY 14221
- 716- 568-3600
STERICYCLE
NMR Safety Rules
Cryogenic liquids
- No person is allowed to use cryogenic liquids without training and permissio
- Dr. Sukumaran should be notified first before any attempt to use cryogenic liquids
- Protective glasses and thermal gloves should be used when working with cryogenic liquids
- In the event of a magnet quench, all occupants must exit the NMR lab immediately
- Any accident of exposure to cryogenic liquids must be reported to Dr. Sukumaran and Dr. Khalid Ahsan.
Magnetic materials
- Persons with metallic implants (e.g. cardiac pacemakers, orthopedic pins, plates, arterial clips, etc.) must keep at least 10 feet distance from the magnets
- Metal and magnetic objects (e.g spatulas, carts, keys, ATM cards, wristwatches, laptops, magnetic tapes, disks, etc.) must be left in the wet lab room or on the table outside the NMR room
Physical contact
- Don’t lean on the magnet
- Use the stairs provided for the spectrometers when loading the sample
Injury reporting
- Report any injury to Dr. Sukumaran and Dr. Ashan
General Rules
- In the event that the sample was broken inside the probe, immediately inform Dr. Sukumaran. Isopropyl alcohol must be used as a cleaner and disinfectant for the probe. Don’ t use bleach! Probe cleaning should only be performed with Dr. Sukumaran. If the sample is serum and if the probe/spectrometer needs fixing, inform the person who will fix the problem the potentially hazardous nature of the sample before he starts to work.
- Use personal protective equipment (e.g. double purple nitrile gloves, lab coat, safety glasses).
- Prepare 10% (v/v) bleach-water solution before handling serum samples. Keep the solution only for a week.
- For NMR tube breakage, recover as much sample as possible from the tube, disinfect the broken tube by soaking it in freshly prepared bleach solution and disinfect the surface. Throw the disinfected glass fragments in the broken glass container.
- In the event of blood serum spill, cover the spill with freshly prepared bleach solution and let it stand for at least an hour before wiping it off with paper towels. Redisinfect the surface with freshly prepared bleach solution. Throw the used paper towels in the biohazardous waste container.
- If you cut or puncture yourself while handling potentially biohazardous biofluids, wash the ezposed area with soap and water and seek medical attention from Milliard Filmore Suburban Hospital or from Health Services as soon as possible (refer to Safety Protocols for NMR for injury logs and reporting).
Biosafety
Safety training
Schedule for a discussion on the following should be made with Mr. Garcia (et. al.)
- Exposure Control Plan
- Metabonomics lab set up in Statler
- Occupational Safety and Health Administration standards Regulations (Standards - 29 CFR) Bloodborne Pathogens
- Questions regarding other aspects of biosafety can be directed to Mr. Leonard Borzynski of EH&S.
Training records
Write a paragraph on the WIKI regarding the date, location, resource person and bullet points of biosafety topics discussed
Vaccination
There are three shots that need to be legally administered to people who are front liners (have direct physical contact with blood and blood products):
- Undergrad/Graduate students: Call University at Buffalo Health Services to schedule an appointment.
- Post-docs: Make sure that you have an active health insurance. Search online for health providers that are affiliated with your current health insurance and schedule an appointment for vaccination. If you have a family doctor, he is also allowed to administer the shots, if he agrees.
Universal safety precautions and lab safety policies
- Prepare 10% (v/v) bleach-water solution before handling serum samples. Keep the solution only for a week. Fill out the form that is posted beside the metabonomics hood for bleach solution preparation indicating the date and name of person who prepared it
- Wash hands with hand soap and water before and after sample preparation
- Wear double purple nitrile gloves whenever you are working with blood and other potentially infectious materials
- Wear full body lab coats at the time
- Wear safety glasses
- Dispose used pipet tips, Eppendorf tubes and gloves that came in contact with serum and serum products in their designated biohazardous waste container. Contact STERICYCLE to schedule for pick up if these containers get filled. Note that the schedules should be made at least 2 days prior to pick up dates.
- Disinfect contaminated safety glasses, lab coats and clothing that were contaminated with serum and serum products by soaking them in a freshly prepared 10% (v/v) bleach-water solution
- Eating and drinking is strictly prohibited inside the NMR lab
- In the event of blood serum spill, cover the spill with freshly prepared bleach solution and let it stand for at least an hour before wiping it off with paper towels. Redisinfect the surface with freshly prepared bleach solution. Throw the used paper towels in the biohardous waste container.
- For NMR tube breakage, recover as much sample as possible from the tube, disinfect the broken tube by soaking it in freshly prepared bleach solution and disinfect the surface. Throw the disinfected glass fragments in the broken glass container
- In the event that the serum sample was broken inside the probe, immediately inform Dr. Sukumaran. Isopropyl alcohol must be used as a cleaner and disinfectant for the probe. Don’ t use bleach. Probe cleaning should only be performed with Dr. Sukumaran. If the probe/spectrometer needs fixing, inform the person who will fix the problem the potentially hazardous nature of the sample before he starts to work
- During data collection, post notes announcing that data acquisition for a potentially hazardous sample is on going
- Wipe the NMR tube with Kimwipes before loading the sample to minimize transfer of dirt to the probe
- If you generate garbage (e.g. used paper towels, Kimwipes, parafilms, or any clutter in general), throw them in regular waste bin
- Clean your working area before leaving the lab
Injury logs and reporting
- In case of fire or magnet quench, call the University police, Dr. Sukumaran and Dr. Szyperski.
- If you cut or puncture yourself while handling potentially biohazardous biofluids, wash the ezposed area with soap and water and seek medical attention from Milliard Filmore Suburban Hospital or from Health Services as soon as possible.
- Report the incident to Dr. Szyperski, Dr. Ashan and Dr. Sukumaran
- You should also contact EH&S (sharps injury reporting)
- Fill out an accident report form (http://hr.buffalo.edu/files/phatfile/Workers_Comp.pdf) and follow the procedures therein
- Record the incident in ‘Sharp Injury Log book’
Additional documents
Chemical hygiene plan
Exposure control plan
NMR
Sample Storage and Preparation
Serum
Urine
Others:Non-biofluids
Pipetting
Labeling of NMR specimens
Data Acquisition
Profiling of serum
Profiling of urine
Profiling of other specimens:Non-biofluids
For Resonance Assignment
Spiking of Metabolites
Data Archiving
Data Processing
Phase Correction
1D PC
2D PC
Baseline Correction
1D BC
2D BC
Peak Alignment: Recursive Segment-wise
Spectral Quality Assessment (FOM)
Operator Certification
It is important to assess not only the variability arising from the specimen collection, sample preparation, NMR data collection and processing but also to evaluate the variability arising from the operator pursuing the SOP. The operator-associated variability can be used to decide if one is ‘certified’ to pursue NMR-based metabonomics research, or if further training is required.
- Read the Magn. Reson. Chem. 2009 paper (Sukumaran, DK; Garcia, E; Hua, J; Tabaczynski, W; Odunsi, O; Andrews, A; Szyperski, T. Standard operating procedure for metabonomics studies of blood serum and plasma samples using a 1H-NMR micro-flow probe. Magn. Reson. Chem. 2009, 47, S81-85) as an introduction to the certification procedure.
- Perform the necessary checks to ensure proper functioning of the instrumentation (see SOP for 1H NMR data acquisition, Section I) and evaluate performance of the spectrometer for biofluids (see SOP for 1H NMR data acquisition, Section II.
- Acquire 1D 1H NOESY and 1D 1H CPMG spectra for fetal bovine serum (FBS) (or any other test samples provided there is ample number of spectra (at least about 10 spectra) acquired by a certified operator on the same spectrometer and the test samples you want to use were prepared as one batch with those used by the certified operator) that were prepared in the same batch as those that were used by the certified operator. Also, make sure that you use the same type of NMR tube as the ones used by the certified operator. The trainee should collect spectra for at least 5 FBS samples per set up.
- Perform spectral quality assessment (see SOP for 1H NMR data acquisition, Section IV.4) after data collection for each sample.
- Process the 1D 1H NMR spectra (see SOP for data processing). Perform a PCA using SIMCA-P for your processed spectra and the spectra of a certified operator.
- Repeat steps 2 – 5 at least 3X wherein someone else uses the spectrometer in between your set ups.
- Certification is granted if all spectra from all set ups are indistinguishable from those acquired by the certified operator (i.e., your spectra should be scattered around the spectra of the certified operator within the 95 % ellipse of PCA score plots, see Figure 3.2.2 for example).
- Bin (bin size = 0.005 ppm, unless other specification is asked for) your processed spectra together with the spectra acquired by the certified operator and send it to the statisticians (Prof. Chris Andrews and Mr. Su Qian, Department of Biostatistics, University at Buffalo) for additional analysis (if necessary) and for certification confirmation.