Science topic

Ambulatory Surgical Procedures - Science topic

Surgery performed on an outpatient basis. It may be hospital-based or performed in an office or surgicenter.
Questions related to Ambulatory Surgical Procedures
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
I am doing a research about the started of interaction about Horses and Humans anyone have anything about?
Relevant answer
Answer
Dr Salwan Andulateef is that the topic!
  • asked a question related to Ambulatory Surgical Procedures
Question
10 answers
Explain the types of drainage tubes used in surgical operations and the most important types or names of these operations?
Relevant answer
Answer
1-Level of training and education if the your subject is nurse
2- How to determine size of drain
  • asked a question related to Ambulatory Surgical Procedures
Question
5 answers
In need to breed  tuta absoluta in the lab especially in a cheap manner
Relevant answer
Answer
For rearing Tuta absoluta there is an artificial diet evaluated by Herta and Postali 1999 made of  protein sources, wheat germ, casein, yeast, soybean and common bean.
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
We face some unsatisfied patients, refractory to standard analgesics even with max doses. It often occurs following major surgeries in both genders but particularly substantial among the middle-aged females. OIH may be one of the causes! Counseling and psych-support do contribute a lot but for a while, which proves that they need some pharmacological adjuvants. What are the significantly effective agents without much side-effects? Again, which will not prolong the hospital stay as well. May the learned and practicing clinicians share your valuable experiences, please?
Relevant answer
Answer
I'm assuming poorly controlled pain is the PRIMARY problem
If Opiod Induced Hyperalgesia (OIH) is contributing then low dose ketamine may be useful. Dosage range 1->5 ugm (microgm)/kg (ideal bw)/minute intravenously.
1ugm/kg/min is opiate analgesia enhancing, 3ugm/kg/min has some inherent analgesic action and opiod sparing, 5ugm/kg/min max analgesic effect. Above 5 psychomimetic effects likely (hallucinations etc).
Other suggestions
Add non steroidal ( first 24-48 hrs) eg ibuprofen 400 Q6h (adult) if no contraindication can be expected to reduce opiod requirement about 30%
+/- paracetamol 1gm Q6h can be expected to reduce opiod requirement about 25%
Consider
Local anaesthetic regional blocks depending on type of surgery and facilities at your institution
  • asked a question related to Ambulatory Surgical Procedures
Question
21 answers
We use this gonadotropin for superovulating mice. 
Thanks in advance!
Relevant answer
Answer
Yes, We can supply you,
PMSG,pregnant mare serum gonadotropin, Natural glycoprotein, pure natural animal hormone, extracted from serum of pregnant mares , Follicle stimulating and Luteinizing activites,improving fertility rate, inducing superovalutions and estrous synchoronization , used in livestock farming,Pig,prepuberal gilts,Cattle,Dairy,Sheep,Goat and other mammal animals
Full series of PMSG, from Raw mare serum, intermediate, lyophilized powder ,and injection (FDF),
now Scientific research and animal farm are using this products
For more and discussion, please contact us .tommy59@qq.com
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
Hi. I am planning to inject 4T1 cells in BALB/c mice to test the efficacy of novel compounds that have inhibited proliferation of various human malignant cell lines in vitro. I am not sure if I should inject them SC or surgically. If possible send me a link for further reading. Thank you.
Relevant answer
Answer
We do the injections subcutaneously (http://altogenlabs.com/xenograft-models/breast-cancer-xenograft/4t1-xenograft-model/), and achieve good growth curves. Usually orthotopic injections are necessary if you are monitoring tissue-specific effects and growth patterns. As Sina wrote, after the tumor has formed a drug or therapeutic is applied, and the consequent growth is monitored to give final results.
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
Dear colleagues,
I would like to know what is the best duration (days) of salinity conditions in tree seedlings aged of 60 days? I am confuse, some works said 1 week, 2 weeks...1 month.
Thank you
Relevant answer
Answer
Thank you all of you
  • asked a question related to Ambulatory Surgical Procedures
Question
1 answer
I want to treat barley plants with DEX, are there any people have experience in doing this kind of experiments? 
Relevant answer
Answer
Not with Barley, but I did DEX treatments in several dicots. Now from memory..... I think used 5µM DEX, but be sure to add a surfactant so the solution (spray treatment) forms a film on the plant material. I used Sillwet. You can get this stuff relative as Silwett gold, used on large scale in Agriculture and its nearly the same purity as the very expensive Silwett L77. Two sprays per week work fine for long term treatments.
  • asked a question related to Ambulatory Surgical Procedures
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
I have a 67 yr old male who presents with facial numbness. Complains about when he eats his face becomes numb (some times tingling), facial swelling (especially his nose), and splotches of red and purple colored skin around nose and cheeks. Doesn't want to talk when this attack comes on. He experiences these symptoms after he eats.
He has been seen by neurologist, immunologist, dermatologist and a endocrinologist. He has had a brain CT scan that shows multiple lesions on the brain but no correlation. Doctors are perplexed and can't find what's causing. They have never had a patient with these problems before.
Worst case he ate Chinese food last night and his face swelled like a basketball with severe numbness on one side of his face (left-side). Ice was applied to help the swelling (to see if that would help), he couldn't feel the ice cube on his face at all. He eats a lot of peanut butter. I thought maybe a food allergy but not sure. I also thought about MSG poisoning. Maybe he has been ingesting too much foods with MSG and he is having an allergic reaction.
  Does any one have any ideas or directions that I might go on?
Relevant answer
Answer
Is he consuming alcohol daily? If so, stop immediately. What is systemic blood pressure, sitting and lying in both limbs? Age? Being proactive will help, not being sorry. The time for being sorry is far past. Body weight? Height? BMI?
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
To find the specific heat of fluids with respect to temperature by using any simple experiment such that we can develop that equipment in our laboratory.
  • asked a question related to Ambulatory Surgical Procedures
Question
7 answers
would you please inform me if I can detect proteins from serum frozen at -80 C and never thawed 
Relevant answer
Answer
You should have no problem for an sort of protein  and DNA assays .
  • asked a question related to Ambulatory Surgical Procedures
Question
15 answers
What would be the ideal length of feeding trial used to determined the vitamins requirement of fish.
Relevant answer
Answer
It depends on the size of the fish. In order to get significant differences in treatments, juvenile fish should at least double its original mean weight by the end of the trial period. For small juveniles(a few grammes) this can be achieved within a few (4-6) weeks. For fish larvae even shorter trials should yield significant differences. In larger juveniles you will need to continue the trial for longer. In adult fish the situation is more complicated. Adult fish can accumulate lipid soluble vitamins in its liver and fatty tissues, so the previous history of the fish will make an impact, and it may take a longer time until significant differencesare achieved.
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
I want to use oxytetracycline spray on ombilic calf infection. I want to know if there are studies about this.
Relevant answer
نتقدم إليكم بالشكر الجزيل والثناء الجميل على هذه المعلومات القيمة
  • asked a question related to Ambulatory Surgical Procedures
Question
1 answer
A protocol for semen culture and identification of microbial strains
Relevant answer
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
How can trypanosoma escape from effects of antibodies.
Relevant answer
Answer
hi dear 
trypannosoma cane escape by polymorphous phenomenon  
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
I need examples of molecular genetic testing in IVF 
Relevant answer
Answer
What exactly do you need? There is plenty of data published in PubMed. Or you need certified or FDA approved examples of tests? 
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
i just want to ask the action of body immune system against the embryo before and after placenta formation.
Relevant answer
Answer
I agree with  Dr Khalid  
  • asked a question related to Ambulatory Surgical Procedures
Question
9 answers
•laboratory?
Relevant answer
Answer
It depends on what blood fraction you need i.e., serum, plasma, platelets, or WBCs.
Please, more details required!
  • asked a question related to Ambulatory Surgical Procedures
Question
10 answers
In our study on Mithun (Bos frontalis) we found that Mycobacterium tuberculosis complex specific serum PCR detected more animals positive for the infection those could not be detected with intradermal tuberculin test. However, by no means, we were able to confirm that the animals detected positive with PCR were really infected with tuberculosis. How can the test be authenticated?
Relevant answer
Answer
Sir, Mycobacterium tuberculosis complex produce granulomatous inflammation in lungs or any other body organ depending upon the exposer to bacterium. It is less likely to come in circulation. And if comes, then it depends on chance factor that we get bacterium in blood sample. and chances also further decreases for serum.
In above study, its looking bright spot that serum based early diagnosis may be done for tuberculosis. We must track these three serum PCR  based positive animals for signs and disease progression, that will be better to authenticate the methodology of early diagnosis of TB.
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
Most of the time we remain in a dilemma whether the fish is healthy or disease based on the blood corpuscles count.
Relevant answer
Answer
Certainly there is range but  the corpuscles count depends on the season,availability of feed/food,physico-chemical parameter of water and physiological status of fish.Generally RBC 1.2-1.4 million/ml,Haematocrit  value 27-36%,Haemoglobin 7.2-8.4g/dl, Monocytes 0.3-.05% ,Small lymmphocytes 59-64%,Large lymphocytes 15-22%,Eosinophills 2.0 2.6% and Basophills up to 1% have been observed in IMC.
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
Hi everybody! Have question about sexual maturity of female Maine coon cats. In general, a kitten is considered an adult cat when it reaches 1 year of age. Kittens typically reach a length and weight close to their full-grown size by 9 to 12 months of age. I know that cat like Maine coon, typically take even longer to grow to their full size. They will be fully grown when reach 2 to 4 years of age. So does it mean that 2 years of age is the earliest year to breed a female Maine coon cat? Thanks, Nataša
Relevant answer
Answer
Dear All,
Sexual maturity of any cats depends mainly on the season when they were born. Those born in late summer or even autumn reach it earlier than those born in the spring. But it is true that some breeds (i.e. Maine coone) reach it a bit later than the other
Female Main coon should not be bred until they are at least 1 year old and had had a least two oestrus cycles. There are some circumstances when you can bred them even before, but it is better to wait at least until they are one year old.
Asist.prof. dr. Primoz Klinc DVM, PhD, dipl. ECAR
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
its a perssad in blocking primer
Relevant answer
Answer
Dear Wenhao Li
This seems to be an internal (i) Spacer C3 in an Oligonucleotide...
Spacer C3 is also used at the 3' of a primer as blocking modification (maybe the "i" stands for "inhibition")
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
I need the answer with reference. 
Relevant answer
Answer
Dear Dr.Cheyed
 I wish the loading pdf inyour interesting subject
  thanks 
  • asked a question related to Ambulatory Surgical Procedures
Question
10 answers
about the mechanism
Relevant answer
Answer
In addition, physiological intraovarian factor especially follicle also needed in control of ovulation.
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
Can anyone confirm that the morphological signs that fall into one component are transmitted together in the future progeny?
Relevant answer
Answer
An Application of Principal Component Analysis to the Detection and
Visualization of Computer Network Attacks
  • asked a question related to Ambulatory Surgical Procedures
Question
5 answers
what the causes  that prevent from uses the local in this animal
Relevant answer
Answer
Muslim Diwan,
The size of your laboratory animals would dictate the maximum dose of local anesthetic. If your lab animals are small, the effective volume of local anesthesia could be toxic. 
Regards,
Christopher
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
there are some husky pups who's growth I'm observing right now
Relevant answer
  • asked a question related to Ambulatory Surgical Procedures
Question
5 answers
(i am talking about Mechanical stimulation of the vaginocervical region), and if there is, how this problem can be avoided?
Relevant answer
Answer
Dear Dr Benalia,
With my experience of collecting the vaginal sample and determining the stage of estrus cycle in the rats, the problem of pseudo-pregnancy is not encountered if appropriate procedure is followed. 
Since as a pre-requisite of many in-vivo reproductive experiments, female rats are subjected to daily collection of vaginal samples and staging them to ensure that the rats are cyclic. A non toxic, clean and blunt probe is gently inserted in vagina and 1 - 2 drops of saline is infused to irrigate the vagina and immediately sucked in the same probe and this sample is spread on a slide to make a smear. The smear is dried and subjected to staining to determine the stage of estrus cycle.
This procedure is simple and the animals gets used to it after a few exposures. Typically after a few trials (once a day for about 7 days) the animals get used  and do not struggle during the procedure. If the animal is stressed because of bad handling, it will not show a regular cycle because of stress but it does not get pseudo-pregnant.
For inducing pseudo-pregnancy, the females who are at estrus stage need to be copulated by sterile male who has undergone orchitectomy at least 4 weeks earlier.
So collecting vaginal swab does include mechanical stimulation by a probe, but the degree or intensity of stimulation is far below the level that is required to induce pseudo-pregnancy. Moreover, the rats gets used to the regular and routine vaginal manipulation for collection of samples and do not identify such stimulation to be similar or same as copulation.
Best wishes,
Sumitabha Ghosh
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
Am doing early research regarding any devices employing tick pheromones to detect and control dog ticks.
Relevant answer
Answer
I'm looking for the device which uses pheronomes to detect the presence of ticks on dogs (animals).
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
early pregnancy diagnosis in goats
Relevant answer
Answer
Transrectal diagnosis can be performed using a scanner with a 7.5 MHz transducer. The 7.5 MHz has a penetration of 5-7cm, meanwhile the 5 MHz has 10-17 cm deepness and the 3.5 MHz 17-20 cm.
  • asked a question related to Ambulatory Surgical Procedures
Question
7 answers
its pertaining to animal reproduction
Relevant answer
Answer
By conducting two ultrasonographic scans  of the uterus at 10 days interval and comparing between growth  parameters( e.g.;  CR, Biparietal head diameter ) recorded in the two examinations.
If there is an increase in one or more of cited parameters , this means that the embryo is still alive and continue to grow.
  • asked a question related to Ambulatory Surgical Procedures
Question
1 answer
I am looking for the possible dose and duration of an antihistamine (DPH) treatment in rats. I could not find the enough references on rat/mouse models. If somebody have worked on it, please kindly share the information.
Relevant answer
Answer
  • J Pharmacol Sci. 2016 Apr;130(4):212-8. 
Antihistamines suppress upregulation of histidine decarboxylase gene expression with potencies different from their binding affinities for histamine H1 receptor in toluene 2,4-diisocyanate-sensitized rats.
  • Neurosci Lett. 2010 Feb 26;471(1):38-42. 
Assessment of the rewarding effects of dimenhydrinate using the conditioned place preference paradigm in mice.
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
Hi, I need to find out how the lactation curve camel looks like. But I can`t find any. I can easily find almost all ruminants but no camel. 
Thanks for helping me I do appreciate it!
Have a good day, Adel
Relevant answer
Answer
you may find what you want in this link
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
History if loss of weight. Has repeated yrinary trsct infection.  No gross faeces in urine or pneumaturia
Relevant answer
Answer
In the ileum the first cause is Crohn´s disease. In some countries it would be convenient to discard the possibility of intestinal tuberculosis also
  • asked a question related to Ambulatory Surgical Procedures
Question
8 answers
I don't have the proper and well detailed protocol of  Animal cell culture in cell culture lab. so please any one send me the pdf of well detailed protocol for animal cell culture?
Relevant answer
Answer
Protocols and useful hints for the successful culture of animal cells
This section provides useful hints for culturing animal cells (i.e., cells derived from higher eukaryotes such as mammals, birds, and insects). It covers different types of animal cell cultures, considerations for cell culture, and cell culture protocols.
 
Animal cell cultures
Safety and handling considerations for animal cell culture
Cell culture conditions
Essential protocols for animal cell culture
Counting cells
Freezing and viability staining of cells
References
Animal cell cultures
Depending on their origin, animal cells grow either as an adherent monolayer or in suspension.
Adherent cells are anchorage-dependent and propagate as a monolayer attached to the cell culture vessel. This attachment is essential for proliferation — many adherent cell cultures will cease proliferating once they become confluent (i.e., when they completely cover the surface of cell culture vessel), and some will die if they are left in this confluent state for too long. Most cells derived from tissues are anchorage-dependent.
Suspension cells can survive and proliferate without being attached to a substratum. Hematopoietic cells (derived from blood, spleen, or bone marrow) as well as some transformed cell lines and cells derived from malignant tumors can be grown in suspension.
Primary cells, finite cultures, and continuous cell lines differ in their proliferative potential (see below). Different cell types vary greatly with respect to their growth behavior and nutritional requirements. Optimization of cell culture conditions is necessary to ensure that cells are healthy and in optimal condition for downstream applications.
Extensive information on culturing cells can be found in reference 1.
Primary cell cultures
Primary cell cultures come from the outgrowth of migrating cells from a piece of tissue or from tissue that is disaggregated by enzymatic, chemical, or mechanical methods. Primary cultures are formed from cells that survive the disaggregation process, attach to the cell culture vessel (or survive in suspension), and proliferate.
Primary cells are morphologically similar to the parent tissue. These cultures are capable of only a limited number of cell divisions, after which they enter a non-proliferative state called senescence and eventually die out. Adherent primary cells are particularly susceptible to contact inhibition, that is, they will stop growing when they have reached confluency. At lower cell densities, however, the normal phenotype can be maintained. Primary cell culture is generally more difficult than culture of continuous cell lines.
Primary cell cultures are sometimes preferred over continuous cell lines in experimental systems. Primary cells are considered by many researchers to be more physiologically similar to in vivo cells. In addition, cell lines cultured for extended periods of time can undergo phenotypic and genotypic changes that can lead to discrepancies when comparing results from different laboratories using the same cell line. Furthermore, many cell types are not available as continuous cell lines.
Finite cell cultures
Finite cell cultures are formed after the first subculturing (passaging) of a primary cell culture. These cultures will proliferate for a limited number of cell divisions, after which they will senesce. The proliferative potential of some human finite cell cultures can be extended by introduction of viral transforming genes (e.g., the SV40 transforming-antigen genes). The phenotype of these cultures is intermediate between finite cultures and continuous cultures. The cells will proliferate for an extended time, but usually the culture will eventually cease dividing, similar to senescent primary cells. Use of such cells is sometimes easier than use of primary cell cultures, especially for generation of stably transfected clones.
Continuous cell lines
Finite cell cultures will eventually either die out or acquire a stable, heritable mutation that gives rise to a continuous cell line that is capable of unlimited proliferative potential. This alteration is commonly known as in vitro transformation or immortalization and frequently correlates with tumorigenicity.
Rodent primary cell cultures form continuous cell lines relatively easily, either spontaneously or following exposure to a mutagenic agent. In contrast, human primary cell cultures rarely, if ever, become immortal in this way and require additional genetic manipulation to form a continuous cell line. However, cell cultures derived from human tumors are often immortal.
Continuous cell lines are generally easier to work with than primary or finite cell cultures. However, it should be remembered that these cells have undergone genetic alterations and their behavior in vitro may not represent the in vivo situation.
Back to top
Safety and handling considerations for animal cell culture
Legislation and regulatory guidelines
Before undertaking any work with human or animal tissue (e.g., to establish a primary cell culture), it is necessary to ensure that the nature of the work conforms to the appropriate medical-ethical and animal-experiment legislation and guidelines. It may be necessary to seek approval from the relevant regulatory authorities and/or individuals.
Safety considerations and biohazards
When working with potentially hazardous material, it is important to be aware of the possible risks associated with both the material and the experimental protocol. All cell cultures are considered a biohazard because of their potential to harbor an infectious agent (e.g., a virus).
The degree of hazard depends on the cells being used and the experimental protocol. Primary cell cultures in particular should be handled carefully as these cultures have a high risk of containing undetected viruses. Although commonly used cell lines are generally assumed to be free of infectious agents, care should still be exercised when working with these cell lines as it is possible that they contain infectious agents, such as latent viruses. Cell cultures used to study specific viruses should be assumed to have the same degree of hazard as the virus under study.
We recommend handling all material as potentially infectious to ensure the safest possible working environment. Work should be performed in an approved laminar flow hood using aseptic technique, and the creation of aerosols should be avoided (see Handling cell cultures). After the work is complete, all waste media and equipment (i.e., used flasks, pipets, etc.) should be disinfected by autoclaving or immersion in a suitable disinfectant according to institutional and regional guidelines.
Handling cell cultures
Adherence to good laboratory practice when working with cell cultures is essential for two reasons: first, to reduce the risk of exposure of the worker to any potentially infectious agent(s) in the cell culture, and second, to prevent contamination of the cell culture with microbial or other animal cells (see Aseptic technique and minimization of aerosols).
Aseptic technique and minimization of aerosols
Aseptic technique and the proper use of laboratory equipment are essential when working with cell cultures. Always use sterile equipment and reagents, and wash hands, reagent bottles, and work surfaces with a biocide or 70% ethanol before beginning work.
Creation of aerosols should be avoided — aerosols represent an inhalation hazard, and can potentially lead to cross-contamination between cultures. To avoid aerosols, use TD (to deliver) pipets, and not TC (to contain) pipets; use pipets plugged with cotton; do not mix liquids by rapidly pipetting up and down; do not use excessive force to expel material from pipets; and do not bubble air through liquids with a pipet. Avoid releasing the contents of a pipet from a height into the receiving vessel. Expel liquids as close as possible to the level of liquid of the receiving vessel, or allow the liquid to run down the sides of the vessel.
Proper use of equipment can also help minimize the risk of aerosols. For example, when using a centrifuge, ensure the vessel to be centrifuged is properly sealed, avoid drops of liquid near the top of the vessel, and use centrifuge buckets with caps and sealed centrifuge heads to prevent contamination by aerosols.
Laminar flow hoods
For the most efficient operation, laminar flow hoods should be located in an area of the laboratory where there is minimal disturbance to air currents. Avoid placing laminar flow hoods near doorways, air vents, or locations where there is high activity. Hoods are often placed in dedicated cell culture rooms.
Tips:
Keep laminar flow hoods clean, and avoid storing equipment inside the hood. 
Before starting work, disinfect the work surface of the hood as well as the outside of any bottles (e.g., by wiping with 70% ethanol), and then place everything needed for the cell culture procedure in the hood. 
Arrange equipment, pipets, waste containers, and reagent bottles so that used items are not placed near clean items, and avoid passing used items over clean items. 
Place used items (e.g., pipets) in a container inside the hood, and disinfect or seal before removing from the hood.
Contamination
The presence of microorganisms can inhibit cell growth, kill cells, and lead to inconsistent results. Contamination of cell cultures can occur with both cell culture novices and experts.
Potential contamination routes are numerous. For example, cultures can be infected through poor handling, from contaminated media, reagents, and equipment (e.g., pipets), and from microorganisms present in incubators, refrigerators, and laminar flow hoods, as well as on the skin of the worker and in cultures coming from other laboratories.
Bacteria, yeasts, fungi, molds, mycoplasmas, and other cell cultures are common contaminants in animal cell culture. To safeguard against accidental cell culture loss by contamination, we recommend freezing aliquots of cultured cells to re-establish the culture if necessary (see Freezing and viability staining of cells).
Microbial contamination
The characteristic features of microbial contamination are presented in the table Characteristic features of microbial contamination. The presence of an infectious agent sometimes can be detected by turbidity and a sharp change in the pH of the medium (usually indicated by a change in the color of the medium), and/or cell culture death. However, for some infections, no turbidity is observed and adverse effects on the cells are not easily observed.
Cell cultures should be routinely evaluated for contamination. Mycoplasmal infections are one of the more common and difficult-to-detect infections; their detection and eradication are described in further detail below.
Characteristic features of microbial contamination
Characteristic
 Bacteria
 Yeast
Fungi
 Change in pH
 pH drop with most infections
 pH change with heavy infections
 pH changes sometimes
 Cloudy medium: Under microscope (100–400x)
 Shimmering in spaces between cells; rods or cocci may be observed
 Round or ovoid particles that bud off smaller particles
 Thin filamentous mycelia; sometimes clumps of spores
 
 Mycoplasmal infection — detection
Mycoplasmas are small, slow-growing prokaryotes that lack a cell wall and commonly infect cell cultures. They are generally unaffected by the antibiotics commonly used against bacteria and fungi. Furthermore, as mycoplasma do not overgrow cell cultures and typically do not cause turbidity, they can go undetected for long periods of time and can easily spread to other cell cultures. The negative effects of mycoplasmal contamination include inhibition of metabolism and growth, as well as interference with nucleic acid synthesis and cell antigenicity. Acute infection causes total deterioration of the cell culture, sometimes with a few apparently resistant colonies that may, in fact, also be chronically infected. There are two main approaches to detect mycoplasma — Hoechst 33258 staining (1, 3) and mycoplasma-specific DNA probes. Alternatively, a PCR-based, mycoplasma-testing service is offered by the ATCC or other organizations on a fee-for-service basis. 
Mycoplasmal infection — eradication
The best action to take with a culture containing chronic mycoplasmal infection is to discard it by either autoclaving or incineration. Only if the cell culture is absolutely irreplaceable should eradication be attempted. This process should be performed by experienced personnel in an isolated hood that is not used for cell culture, preferably in a separate room. Elimination of mycoplasma is commonly achieved by treatment with various commercially available antibiotics such as a quinolone derivative (Mycoplasma Removal Agent), ciprofolxacin (Ciprobay), enrofloxacin (Baytril), and a combination of tiamulin and minocycline (BM-Cyclin). Treatment procedures and appropriate antibiotic concentrations can be found in the suppliers’ instructions and in references 1 and 3.
Cross-contamination of cell lines
Cross-contamination of one cell culture with fast-growing cells from another culture (such as HeLa) presents a serious risk. To avoid cross-contamination, only use cell lines from a reputable cell bank; only work with one cell line at a time in the hood; use different pipets, bottles of reagents, and bottles of media for different cell lines; and check cells regularly for the correct morphological and growth characteristics.
Back to top
Cell culture conditions
Media and serum
The choice of cell culture medium is extremely important, and significantly affects the success of cell culture experiments. Different cell types have highly specific growth requirements, and the most suitable medium for each cell type must be determined experimentally. Common basal media include Eagle minimal essential medium (MEM), Dulbecco’s modified Eagle medium (DMEM), RPMI 1640, and Ham F10. These contain a mixture of amino acids, glucose, salts, vitamins, and other nutrients, and are available either as a powder or as a liquid from various commercial suppliers.
Basal media are usually supplemented just before use with serum, L glutamine, and antibiotics and/or fungicides to give complete medium (also called growth medium). Serum is a partially undefined material that contains growth and attachment factors, and may show considerable variation in the ability to support growth of particular cells. Fetal calf serum (FCS) is the most frequently used serum, but for some applications, less expensive sera such as horse or calf serum can be used. Different serum batches should be tested to find the best one for each cell type. L-glutamine is an unstable amino acid that, with time, converts to a form that cannot be used by cells, and should be added to medium just before use. Antibiotics and fungicides can be used as a supplement to aseptic technique to prevent microbial contamination. The working concentration of commonly used antibiotics and fungicides is provided in the tables Commonly used antibiotics for animal cell culture and Commonly used fungicides for animal cell culture. Some cell types, particularly primary cells, require additional supplements (e.g., collagen and fibronectin, hormones such as estrogen, and growth factors such as epidermal growth factor and nerve growth factor) to attach to the cell culture vessel and proliferate.
Media, serum, and supplements should be tested for sterility before use by incubation of a small aliquot at 37°C for 48 hours. If microbial growth has occurred after this incubation, the medium or supplement should be discarded.
Commonly used antibiotics for animal cell culture
Antibiotic
 Working concentration
 Effective against
Stability at 37°C
 Penicillin
 50–100 U/ml
 Gram-positive bacteria
 3 days
 Streptomycin
 50–100 µg/ml
 Gram-negative bacteria
 5 days
 Kanamycin
 100 µg/ml
 Gram-positive and gram-negative bacteria; mycoplasma
 5 days
 Gentamycin
 5–50 µg/ml
 Gram-positive and gram-negative bacteria; mycoplasma
 5 days
Adapted from reference 4.
Commonly used fungicides for animal cell culture
Antibiotic
 Working concentration
 Effective against
Stability at 37°C
 Nystatin
 100 U/ml
 Yeasts and molds
 3 days
 Amphotericin B
 0.25–2.5 µg/ml
 Yeasts and molds
 3 days
Adapted from reference 4.
Incubation conditions
The incubation conditions used to culture cells are also important. Cell cultures should be incubated in an incubator with a tightly regulated temperature (e.g., a water-jacketed incubator) and CO2 concentration. Most cell lines grow at 37°C and 5% CO2 with saturating humidity, but some cell types require incubation at lower temperatures and/or lower CO2concentrations.
Cell culture vessel
The choice of growth vessel can influence the growth of adherent cells. Sterile, disposable dishes and flasks that have been treated to allow attachment of animal cells to the growing surface are available commercially.
Cell banking
For some cell cultures, especially those that are valuable, it is common practice to maintain a two-tiered frozen cell bank: a master cell bank and a working cell bank. The working cell bank comprises cells from one of the master bank samples, which have been grown for several passages before storage. If future cell samples are needed, they are taken from the working cell bank. The master cell bank is used only when absolutely necessary. This ensures that a stock of cells with a low passage number is maintained, and avoids genetic variation within the cell culture.
Culture instability
The growth rate of cells that have been repeatedly subcultured may sometimes unexpectedly decrease, and the cytotoxicity of, for example, a transfection process may unexpectedly increase. This instability can result from variations in cell culture conditions, genomic variation, and selective overgrowth of constituents of the cell population. We recommend using cells with a low passage number (<10 splitting cycles). To safeguard against instability in continuous cell lines, avoid senescence or transformation in finite cell lines, and maintain consistency in transfection experiments, we recommend creating cell banks by freezing aliquots of cells to recall into culture if and when necessary.
Back to top
Essential protocols for animal cell culture
Maintaining cell cultures
Establishment and maintenance of animal cell cultures require standardized approaches for media preparation, feeding, and passaging (or subculturing) of the cells. Cultures should be examined regularly to check for signs of contamination and to determine if the culture needs feeding or passaging.
The cell culture protocols below have been adapted from the following sources: Culture of Animal Cells; a Manual of Basic Technique (1), Current Protocols in Molecular Biology (4), and Cells: A Laboratory Manual (2). These protocols are examples of methods for general cell culture, and have not been rigorously validated and optimized by QIAGEN. There are many alternative protocols in current use.
IMPORTANT: Potentially biohazardous materials (e.g., cells, culture medium, etc.) should be sterilized before disposal, and disposed of according to your institution’s guidelines.
Cell thawing
Heat a water bath to 37°C, and warm the growth medium into which the cells will be plated.
Add prewarmed growth medium to an appropriately sized cell culture vessel.
Remove a vial of frozen cells from liquid nitrogen, and place in the water bath until thawed.
IMPORTANT: Wear protective goggles and gloves when thawing vials that have been stored in liquid nitrogen. Vials may explode when removed from liquid nitrogen.
IMPORTANT: Proceed to step 4 as soon as the cells have thawed. Do not allow the cells to warm up before transferring them into growth medium.
Wash the outside of the vial with 70% ethanol or another suitable disinfectant.
Slowly pipet the thawed cell suspension into the cell culture vessel containing prewarmed growth medium. Swirl the vessel gently to mix the cells with the medium.
Note: Immediate removal of DMSO may sometimes be necessary, especially for suspension cells, primary cells, and sensitive cell types. For such cell types, pipet the thawed cell suspension into a sterile centrifuge tube containing prewarmed medium, centrifuge at 200 x g for 2 min, aspirate the supernatant, resuspend the cells in fresh growth medium, and then transfer to an appropriate cell culture vessel.
IMPORTANT: Thoroughly mix the cells in the cell culture vessel to ensure even distribution of the cells throughout the vessel.
Incubate cells overnight under their usual growth conditions.
The next day, replace the growth medium.
Trypsinizing cells
Trypsinization is a technique that uses the proteolytic enzyme trypsin to detach adherent cells from the surface of a cell culture vessel. This procedure is performed whenever the cells need to be harvested (e.g., for passaging, counting, or for nucleic acid isolation).
Aspirate the medium and discard.
Wash cells with PBS (phosphate-buffered saline) or HBSS (Hanks balanced salt solution) (see tables 1x PBS and 1x HBSS), aspirate, and discard. Repeat.
The volume of PBS or HBSS should be approximately the same as the volume of medium used for culturing the cells.
Add enough warmed 1x trypsin–EDTA solution (see table 1x trypsin–EDTA solution) to cover the monolayer, and rock the flask/dish 4–5 times to coat the monolayer.
Place the flask/dish in a CO2 incubator at 37°C for 1–2 min.
Remove flask/dish from incubator and firmly tap the side of the flask/dish with palm of hand to assist detachment.
If cells have not dislodged, return the flask/dish to the incubator for a few more minutes.
IMPORTANT: Do not leave cells in 1x trypsin–EDTA solution for extended periods of time. Do not force the cells to detach before they are ready to do so, or clumping may occur.
Overly confluent cultures, senescent cells, and some cell lines may be difficult to trypsinize. While increasing the time of trypsin exposure may help to dislodge resistant cells, some cell types are very sensitive to trypsin and extended exposure may result in cell death. In addition, some cell lines will resist this treatment and will produce cell clumps.
Once dislodged, resuspend the cells in growth medium containing serum.
Use medium containing the same percentage of serum as used for growing the cells. The serum inactivates trypsin activity.
Gently pipet the cells up and down in a syringe with a needle attached to disrupt cell clumps.
If pipetted too vigorously, the cells will become damaged. Ensure that pipetting does not create foam.
Proceed as required (e.g., with passaging, freezing, nucleic acid isolation, etc.).
1x PBS
Composition
 137 mM NaCl
 2.7 mM KCl
 4.3 mM Na2HPO4
 1.47 mM KH2PO4
The pH should be 7.4 without adjustment. Store at room temperature.
1x HBSS
Composition
 5 mM KCl
 0.3 mM KH2PO4
 138 mM NaCl
 4 mM NaHCO3
 0.3 mM Na2HPO4
 5.6 mM D-glucose
The pH should be 7.4 without adjustment. Store at room temperature.
1x trypsin–EDTA solution
Composition
 0.05% (w/v) trypsin
 0.53 mM EDTA
 Dissolve trypsin and EDTA in a calcium- and magnesium-free salt solution such as 1x PBS or 1x HBSS*
* Store 1x trypsin-EDTA solution at –20°C. Small aliquots can be stored at 2–8°C for 1–2 weeks. Work quickly when using trypsin during cell culture, since trypsin degrades and enzymatic activity declines at 37°C..
Passaging cells
Many adherent cell cultures will cease proliferating once they become confluent (i.e., when they completely cover the surface of cell culture vessel), and some will die if they are left in a confluent state for too long. Adherent cell cultures therefore need to be routinely passaged, that is, once the cells are confluent, a fraction of the cells need to be transferred to a new cell culture vessel. Suspension cells will exhaust their culture medium very quickly once the cell density becomes too high, so these cultures similarly require regular passaging.
IMPORTANT: Although regular passaging is necessary to maintain animal cell cultures, the procedure is relatively stressful for adherent cells as they must be trypsinized. We do not recommend passaging adherent cell cultures more than once every 48 h.
Harvest the cells, either by trypsinization (adherent cell cultures) or by centrifugation at 200 x g for 5 min (suspension cell cultures). Resuspend the cells in an appropriate volume of prewarmed growth medium containing serum.
The volume of medium used to resuspend the cells depends on the split ratio required (see step 2) and the size of the cell culture vessel. If too small a volume is used, it may be difficult to accurately pipet the desired volume to the new culture vessel.
Conversely, if too large a volume is used, the culture vessel may be too full following transfer of the cells.
Removal of trypsin may sometimes be necessary following harvesting of adherent cells, especially for primary and sensitive cell types. Centrifuge the cells at 200 x g for 5 min, carefully aspirate the supernatant, and resuspend the cells in an appropriate volume of prewarmed medium containing serum.
Transfer an appropriate volume of the resuspended cells to a fresh cell culture vessel containing prewarmed growth medium. Swirl the vessel gently to mix the cells with the medium.
IMPORTANT: Thoroughly mix the cells in the cell culture vessel to ensure even distribution of cells.
IMPORTANT: Some cell types will not survive if too few cells are transferred. We do not recommend high split ratios for primary cells, sensitive cell types, or senescent cultures.
For adherent cells, we recommend adding enough cells so that the culture takes approximately one week to reach confluence again. This minimizes the number of times the cells are trypsinized as well as the handling time required to maintain the culture.
When determining how many cells to transfer to the new cell culture vessel, it can be helpful to think in terms of how many cell divisions will be required for the culture to reach confluence again. For example, if half the cells are transferred, then it will take the culture one cell division to reach confluency again; if a quarter of the cells are transferred then it will take 2 cell divisions, and so on. If a culture divides once every 30 h or so, then in one week it will undergo approximately 5 cell divisions. A split ratio of 1:32 (1:25) should therefore be appropriate for the cells to reach confluency in about one week. In step 1, resuspend the cells in 8 ml medium, and transfer 0.25 ml to the new cell culture vessel.
Incubate cells under their usual growth conditions.
Back to top
Counting cells
Cell counting using a hemocytometer
It is often necessary to count cells, for example, when plating cells for transfection experiments. One method for counting cells is to use a hemocytometer. A hemocytometer contains 2 chambers (see figure Counting cells using a hemocytometer). Each chamber is ruled into 9 major squares (volume of 0.1 mm3 or 1 x 10–4 ml each). Cell concentration is determined by counting the number of cells within a defined area of known depth (volume).
This protocol is adapted from references 1, 2, and 4. It should be noted that there are many other protocols also in use.
Clean the surface of the hemocytometer with 70% ethanol or another suitable disinfectant, taking care not to scratch the surface of the central area. Dry with lens paper.
Clean the coverslip, wet the edges very slightly, lay it over the grooves and central area of the hemocytometer and gently press down.
It is important that the coverslip is properly attached to obtain the correct chamber depth. The appearance of Newton’s rings (bright and dark rings caused by interference in the air between the coverslip and the glass surface of the hemocytometer) will confirm that the coverslip is attached properly.
Harvest the cells, either by trypsinization (adherent cell cultures; see Trypsinizing cells) or by centrifugation at 200 x g for 5 min (suspension cell cultures). Resuspend the cells in an appropriate volume of prewarmed growth medium. At least 106 cells/ml are required for accurate counting.
Tip: It may be necessary to centrifuge cells and resuspend in a smaller volume to obtain the desired cell concentration for counting. For adherent cells, it is important to produce a single-cell suspension after trypsinizing. Cell clumping will make counting difficult and inaccurate.
Mix the cell suspension sample thoroughly. Using a pipet, immediately transfer 20 µl to the edge of one side of the coverslip to fill one chamber of the hemocytometer. Repeat for the second chamber.
The cell distribution should be homogeneous in both chambers. The cell suspension is drawn under the coverslip and into the chamber by capillary action.
The cell suspension should just fill the chamber. Blot off any surplus fluid without disturbing the sample underneath the coverslip.
Transfer the slide to the microscope, and view a large square ruled by 3 lines using a 10x objective and 10x ocular.
Count the total number of cells in 5 of the 9 major squares. Count cells that overlap the top and left border of squares but not those overlapping bottom and right borders. This prevents counting overlapping cells twice. If the cell density is too high, the cell suspension should be diluted, noting the dilution factor.
Repeat the counting for the second chamber to give a total of 10 squares.
Add the number of cells counted in all 10 squares together to give the number of cells in 1 x 10–3 ml.Multiply by 1000 to give the number of cells/ml.
IMPORTANT: If the original cell suspension was diluted for counting, multiply by the dilution factor to obtain the number of cells/ml.
Clean the hemocytometer and coverslip by rinsing with 70% ethanol and then with distilled water. Dry with lens paper.  
Back to top
Freezing and viability staining of cells
For some cell cultures, especially valuable ones, it is common practice to maintain a two-tiered frozen cell bank: a master and a working cell bank. The working cell bank comprises cells from one of the master bank samples, which have been grown for several passages before storage. If and when future cell samples are needed, they are taken from the working cell bank. The master cell bank is used only when absolutely necessary. This ensures that a stock of cells with a low passage number is maintained, and avoids genetic variation within the culture. 
Check that cells are healthy, not contaminated, and have the correct morphology.
Change the medium 24 h before freezing the cells.
Adherent and suspension cell cultures should not be at a high density for freezing. We recommend freezing cells when they are in the logarithmic growth phase.
Adherent cultures: harvest the cells by trypsinization, resuspend in medium containing serum, centrifuge at 200 x g for 5 min, and then resuspend cells in freezing medium (see table Freezing medium) at a density of 3–5 x 106 cells/ml.
Suspension cultures: centrifuge the cells at 200 x g for 5 min, and resuspend in freezing medium at a density of 5–10 x 106 cells/ml.
IMPORTANT: Freezing medium containing DMSO is hazardous and should be handled with caution.
Transfer 1 ml of the cell suspension (approximately 3–5 x 106 adherent cells or 5–10 x 106 suspension cells) into each freezing vial. Label vials with the name of cell line, date, passage number, and growth medium.
Tip: It may also be useful to note the cell density in the freezing vials before storing. This enables determination of the cell density that provides optimal recovery after thawing.
Place freezing vials in racks and transfer to a polystyrene box (with walls approximately 15 mm thick) lined with cotton wool. Store box in a –80°C freezer overnight.
It is important that cells are frozen at a rate of 1°C/min. A controlled-rate freezing device can be used instead of the polystyrene box and cotton wool method.
The next day, quickly transfer the vials to a liquid nitrogen chamber, making sure that the vials do not begin to thaw.
Freezing medium
Composition
 Growth medium (RPMI, DMEM, etc.) containing 10–20% FBS and 5–20% glycerol or DMSO
Most suspension cells are frozen in freezing medium containing DMSO.
Store at –20°C.
Viability staining
Trypan blue staining provides a method for distinguishing between viable (i.e., capable of growth) and nonviable cells in a culture. This staining method is based on “dye exclusion”: cells with intact membranes exclude (i.e., do not take up) the dye and are considered viable.
Harvest the cells, either by trypsinization (adherent cell cultures) or by centrifugation at 200 x g for 5 min (suspension cell cultures). Resuspend the cells in an appropriate volume of pre-warmed growth medium to give a cell density of at least 106 cells/ml.
Add 0.5 ml 0.4% (w/v) trypan blue (see table Trypan blue) and 0.3 ml PBS or Hank’s balanced salt solution (HBSS; see tables 1x PBS and 1x HBSS) to 0.1 ml of the cell suspension. Mix thoroughly, and let stand for 1–2 min. Alternatively, add 0.4 ml trypan blue directly to 0.4 ml of cells in growth medium.
At least 106 cells/ml are required for accurate counting.
Count the stained and unstained cells using a hemocytometer (see Cell counting using a hemocytometer). Blue-stained cells are nonviable and unstained cells are viable.
No. of viable cells/ Total no. of cells = % viability
Trypan blue
Component
Amount
 Trypan blue
 0.4 g
 1x PBS or 1x HBSS
 100 ml
Store at room temperature.
Back to top
References
Freshney, R.I. (1993) Culture of Animal Cells, A Manual of Basic Technique, 3rd ed., New York: Wiley-Liss.
Spector, D., Goldman, R.R., and Leinwand, L.A., eds. (1998) Cells: a Laboratory Manual. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press.
Drexler, H.G. et al., eds. (1997) DSMZ Catalog of Human and Animal Cell Lines. 6th ed.
Ausubel, F.M. et al. eds. (1991) Current protocols in molecular biology. New York: Wiley Interscience.
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
Hi is there anyone to suggest me techniques of fish ectoparasite culture under laboratory conditions?
Relevant answer
Answer
It's very out of ethics to culture parasites either they are ecto or endo. You must culture fish or any other animal but not parasites!!!
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
When I continues the study related to animal cell culture i had a doubt related to PBS. and the process include in that..
Relevant answer
Answer
Thank you Mr. Adam B Shapiro for your valuable information....
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
I would like to measure intracavernosal pressure in rat penis using the ICP/arterial pressure ratio. I have not done this before and would like to visit a lab that does this routinely - to learn. Please assist or contact me directly consewa@hotmail.com 
Relevant answer
Answer
you can many researches in this line in feline 
  • asked a question related to Ambulatory Surgical Procedures
Question
8 answers
to evaluate the clinical effectiveness on Neonatal management
Relevant answer
Answer
Thanks
  • asked a question related to Ambulatory Surgical Procedures
Question
4 answers
Bacillus thringinesis widely used in insects biological control ,i would like to know more about there risk to human health.
Relevant answer
Answer
Please see attached article, which is from National Pesticide Information Center (NPIC), USA. The article summarizes good info for Bacillus thuringiensis pesticide. One paragraph it describes as following:
"What are some signs and symptoms from a brief exposure to Bacillus thuringiensis (Bt):
Bt is low in toxicity to people and other mammals. Several studies have found no evidence of sickness or infection as a result of exposure. However, some products with Bt have caused eye and skin irritation. In one study, rats breathed in very high doses of concentrated Bt. Some had runny noses, crusty eyes, and goose bumps. Others were less active or lost weight.
In another study, people were surveyed before and after aerial applications of Bt. Most people were not affected. However, some people with hay fever reported certain symptoms. These included difficulty with sleep and concentration, stomach upset, and nose/throat irritation. Seasonal factors, such as pollen, may have contributed to some of the effects.
Scientists also evaluated whether Bt can cause allergic reactions. Researchers found that farmworkers exposed for one to four months did not experience any problems related to their airways, nose, or skin. However, further exposure showed evidence of an immune response and the potential for skin allergies to develop."
  • asked a question related to Ambulatory Surgical Procedures
Question
1 answer
I Study about magnetic field effects on reproduction enzymes in female fish. I would like to know if there is any similar study about this? Do you think which intensity could be effective in this study?
Relevant answer
Answer
The magnetic field greatly influence biological and biochemical reactions in vivo.Yes my colleague it can strongly affect reproductive enzymes
  • asked a question related to Ambulatory Surgical Procedures
Question
6 answers
Some papers suggest low as 60mmHg, some suggest as high as 80mmHg
Relevant answer
Answer
If you agree that "optimal BP" need for optimal blood flow
  • asked a question related to Ambulatory Surgical Procedures
Question
6 answers
I have breed seven Rat, all of them has given birth but after 14th day I have observed that one female rat eating her own baby. What is the reason behind this kind of cannibalism? Is it possible can we read this behavior through any kind of molecular analysis?
Any suggestions? 
Relevant answer
Answer
See this "Rat breeding guide" at:
Maternal Infanticide
The term infanticide is defined as the killing of an infant. It is hard to determine, unless you actually witness it, whether or not a female has committed infanticide or if the pup has died naturally. It is not typical for mother to kill their own offspring. Mother rats may kill the offspring of other females and virgin females will often kill babies (suggesting that hormones play an active role in determining female behavior to offspring). Yet there certainly are scenarios when mothers kill their own.Some hairless mothers who are unable to lactate may kill their entire litter. Hairless females with diminished lactation may cull their own litter one by one until they reach the number of babies that they can provide nourishment for.
Typically infanticide is committed during the first few days of life and the killing of an individual pup is more likely than the killing of an entire litter. Some factors that may lead to maternal infanticide include: hormonal imbalances, environmental stress, hunger, protein deficiencies, vitamin deficiencies, and obesity.
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
I want to inject metformin prepared in normal saline to hamster model of proteinopathy...can anyone suggest the best dosage with possible reference?
Relevant answer
Answer
Hi, 
metformin is usually administered ip in mice at dose ranging drom 50 to 250 mg/kg
1) Metformin inhibits the growth of human pancreatic cancer xenografts.
Kisfalvi K1, Moro A, Sinnett-Smith J, Eibl G, Rozengurt E.                                   Pancreas. 2013 Jul;42(5):781-5. doi: 10.1097/MPA.0b013e31827aec40.
2) Metformin inhibits ovarian cancer growth and increases sensitivity to paclitaxel in mouse models. Lengyel E, Litchfield LM, Mitra AK, Nieman KM, Mukherjee A, Zhang Y, Johnson A, Bradaric M, Lee W, Romero IL. Am J Obstet Gynecol. 2015 Apr;212(4):479.e1-479.e10. doi: 10.1016/j.ajog.2014.10.026. Epub 2014 Oct 19.
  • asked a question related to Ambulatory Surgical Procedures
Question
1 answer
We are interested in socio-economics of PPR in Kajiado with respect to control through vaccination.
Relevant answer
Answer
Hi Romona,
This specific project was initiated by FAO through their RAELOC project that involved the DVS. Key aspect of the project was to assess the socio-economic impact of small ruminant diseases specifically peste des petits ruminants  in pastoral areas of Kitui, Garissa,Tana River, Marsabit, Isiolo and Samburu in order to inform national veterinary policy, PPR disease control strategy and its domestication within counties. ThIis aspect of the project is finalized and FAO will release the report as appropriate. 
  • asked a question related to Ambulatory Surgical Procedures
Question
3 answers
Does anyone know the reference values for salivary cortisol in dogs?
Relevant answer
Answer
good job Santiago!
  • asked a question related to Ambulatory Surgical Procedures
Question
2 answers
I want to study level of growth factor from human cervical fluid. It will be dilluted in phosphate buffer saline. after preliminary study, I found it was  compromised with bacterial overgrowth.
I want to use preservative agent. Could you suggest better preservative agent in this case?
thank you
Relevant answer
Answer
How can PBS-BSA be called as a preservative Buffer? And presence of antibiotics in any buffer can be a very short term solution. Phil is right in pointing out at Isothiazolinone. It will take care of bacteria, fungi, algae everything.
  • asked a question related to Ambulatory Surgical Procedures
Question
7 answers
Do human tears have DNA? Please any one can answer this Q?
Relevant answer
Answer
Thank you all for your wonderful answers
  • asked a question related to Ambulatory Surgical Procedures
Question
6 answers
Is it possible to induce vaginal prolapse in dogs or in lab animals?
Relevant answer
Answer
Thank you so much Dr. Barlow.