Talk:CT scan: Difference between revisions

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an edit was recently made to sinogram (a disambiguation page) such that one of its definitions now points to this article. However, this article does not mention the term. Could someone who is knowledgeable in this area please integrate mention the concept into this article, or change the disambiguation page to point to a more appropriate target? Thanks. Agradman (talk) 18:23, 15 June 2009 (UTC)[reply]

added details: Originally, the page only included Radon Transform and Chinese Character (history). Subsequently, someone added tomographic reconstruction (history). Subsequently, someone joined radon transform & tomographic reconstruction with the phrase, "or equivently" (history). This led me to view the concepts as identical, so I brought the page to this version (history). My error was corrected to its current form (history)by Sławomir Biały, an editor who is knowledgeable about the radon transform. Agradman (talk) 18:40, 15 June 2009 (UTC)[reply]

According to this article, a CT scanner is a medical device. This is not true, the medical CT scanner is only one of the many applications of this technology! Will someone please help fix this —Preceding unsigned comment added by 193.191.9.29 (talk) 10:22, 13 November 2009 (UTC)[reply]

Hi, most of the information below has been thoroughly debunked, and I've added 6 citations that illustrate this (and I was being nice... there are tons more to refute this sensationalist nonsense). Can we jsut remove the original citation about cancer risk until the actual study currently underway for CT patients concludes? — Preceding unsigned comment added by 71.197.146.147 (talk) 01:55, 10 June 2011 (UTC)[reply]

I haven't added this due to the insufficient access and time to medical journals for references. I'm sure someone else can find this information out for me? "The amount of cancer-causing radiation exposure in CT scans can vary fourfold or more with different machines, even when identical tests are performed" "Experts have estimated that while the risk of a patient getting a fatal cancer from a chest X-ray is one in 625,000, it is one in 1600 for a chest CT scan and one in 1100 for a pelvic or abdominal CT." referenced from http://www.theaustralian.com.au/news/alarm-grows-over-high-ct-radiation/story-e6frg6no-1225759204933 MrAnderson7 (talk) 00:51, 17 December 2009 (UTC)[reply]

• Yes, this information was covered in the US as well..the Today Show, I think?... I googled it and here is a link:

http://www.usatoday.com/news/health/2009-12-15-radiation15_st_N.htm Gandydancer (talk) 02:14, 17 December 2009 (UTC)[reply]

The article cites a 23% risk of dying from cancer. Perhaps this is true in some countries, but the worldwide risk is 12.5% as determined by the WHO in 2002, and cited in Wikipedia's article, List of causes of death by rate: http://www.who.int/whr/2004/annex/topic/en/annex_2_en.pdf 98.154.77.115 (talk) 22:19, 13 May 2010 (UTC)[reply]

Some peer-review articles and some pop-ed articles (including the previously mentioned USA-Today article) properly mention that that CT scans are (slightly?) more risky for people with rapidly dividing cells. Who would this include? "All young people" and "anyone with cancer in the location to be scanned". Now I guess it goes without saying that a CT scan is preferable to exploratory surgery; so if you are willing to have corrective surgery then a CT scan is probably desired. If you will not authorize surgery, and are worried about the risks of a CT scan, then perhaps a CT scan should be avoided. Just my two cents worth. Neilrieck (talk) 10:48, 14 May 2012 (UTC)[reply]

It is interesting to me that the subject of computed tomography completely ignores the author of the first example CT software - that is, Richard Gordon of the radiology department at the University of Manitoba. Indeed, if one reviews the material otherwise available through Gabor Hermann, one learns that Richard Gordon wrote the first version of the software product now known at SNARK. 206.45.135.77 (talk) 01:05, 2 May 2010 (UTC)[reply]

Moved this improperly placed link from the article to here for inclusion/discussion:

• guidelines for appropriate use of CT, some discussion of MRI and Ultrasound as alternatives

--Lexein (talk) 18:22, 27 May 2010 (UTC)[reply]

this link doesn't work as of 13-08-2010

In Jan 2008 User:Radagast83 merged content from article Synchrotron X-ray tomographic microscopy I had started. A previous merge was proposed in Aug 2007, but was voted down.

• Why was it merged?
• Where did this content go? It appears it was simply removed.
• Should Synchrotron X-ray tomographic microscopy be recreated?

- RoyBoy 15:06, 6 June 2010 (UTC)[reply]

I wonder what the most commonly used bit-rate for the storage matrix is in current medical CT systems. If a range of 4000 HU is used to describe practically the whole spectrum of tissue in the human body, a 12-bit matrix would allow 4096 distinct values to be stored. A 8-bit window would allow 256 grey values to be used for 100 Houndsfield units. This gives a resolution of 2,5 grey values for 1 HU. This seems nice, but in face the input and storage in the processing matrix is only 12 bit and gives a resolution of 1 value per 1 HU. Therefore, those 2,5 grey values are all and the same. Nowadays physicians still look at CT's to diagnose patients, but more and more computers and their filters are used to guide the physician through the scan and look for trouble before the physician does. For this reason a higher storage matrix bit rate of 16 bits would increase the resolution (in theory) 65 fold and windows can be smaller to distinguish between even more detail (in contrast). - Remi Verhoeven, Eindhoven University of Technology (talk) 10:05, 13 August 2010 (UTC)[reply]

A span of 4000 Hounsfield units is actually very reasonable for CT data, and little would be gained by either increasing the dynamic range, or by introducing fractional units. In practice, typical windows are 400 HU wide - mapping 400 HU onto 256 grey levels (or 1 grey-level onto 1.6 HU). Further, image noise is sufficiently high that even a precision of 1 HU is unnecessary - as the noise in a typical CT image has a standard deviation of approximatley 5-10 HU, and considerably more for studies where radiation exposure needs to be minimized.

The typical data format for CT data is 16 bpp of which 12 bpp are used to represent -1024 to 3071 HU. ChumpusRex (talk) 20:30, 15 August 2010 (UTC)[reply]

The table under "Typical scan doses" has radiation exposure values markedly less than the commonly given figures. For instance, a chest, abdomen and pelvis CT is listed at 9.9 mSv but numerous sources have 18 mSv. This latter figure is from Mettler FA, et al: Effective Doses in Radiology and Diagnostic Nuclear Medicine: A Catalog, Radiology 2008 248:254-263). Mettler's values are for the U.S. and not the U.K. which the table cites. However, since the U.S. does more CT scans than any other country, I think we should be using U.S. figures. — Preceding unsigned comment added by TL36 (talk • contribs) 07:05, 30 December 2010 (UTC)[reply]

Is this a good replacement for the WP:dead link on cite note number 7?--Breawycker (talk to me!) Review Me! 22:03, 27 March 2011 (UTC)[reply]

Er, is what a good replacement for etc. etc.? --Redrose64 (talk) 14:09, 28 March 2011 (UTC)[reply]

this would be a good replacement.Breawycker (talk to me!) Review Me! 02:14, 1 April 2011 (UTC)[reply]

No, because it returns: "Page not found The page you are looking for was not available. This may be because the page was moved or deleted, or because the address in the address bar is incorrect. Please try one of the following: * If you have typed the web address into the address bar yourself, make sure that it is spelled correctly. * Go to the Health Protection Agency home page and use the links available to navigate to the information you are looking for. * Alternatively, use the website search facility available on the home page to find the information you are looking for.". --Redrose64 (talk) 11:52, 1 April 2011 (UTC)[reply]

The sentence in the intro that reads, "It is estimated that 0.4% of current cancers in the United States are due to CTs performed in the past..." egregiously misrepresents the source article. From the NEJM article that was cited:

"On the basis of such risk estimates and data on CT use from 1991 through 1996, it has been estimated that about 0.4% of all cancers in the United States may be attributable to the radiation from CT studies."

'may be attributable to' =/= 'due to'. Might sound nit-picky, but to say that cases of cancer are due to CT scans suggests an extremely strong causal link, i.e. that in many cases patients who would not otherwise have developed cancer got cancer directly as a result of having a CT scan. The original statement is not that strong, and suggests a statistically significant increased incidence of cancer in patients who receive CT scans. In addition, 'may be attributable' suggests that in the relevant cancer cases, the CT scan may have contributed to the patient developing cancer, not that it caused it independently of any other conditions.

Instead of paraphrasing the statement in a misleading manner, it makes more sense to just quote the article directly. Vikingurinn (talk) 20:14, 11 December 2011 (UTC)[reply]

Typically we paraphrase rather than quote, we also typically use more plane language.--Doc James (talk · contribs · email) 04:58, 13 December 2011 (UTC)[reply]

I've done a search for review articles from 2007 to the present, and found:

• Baker JE, Moulder JE, Hopewell JW (2011). "Radiation as a risk factor for cardiovascular disease". Antioxid. Redox Signal. 15 (7): 1945–56. doi:10.1089/ars.2010.3742. PMC 3159113. PMID 21091078. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Pauwels EK, Bourguignon M (2011). "Cancer induction caused by radiation due to computed tomography: a critical note". Acta Radiol. 52 (7): 767–73. doi:10.1258/ar.2011.100496. PMID 21742785. {{cite journal}}: Unknown parameter |month= ignored (help)

• Schonfeld SJ, Lee C, Berrington de González A (2011). "Medical exposure to radiation and thyroid cancer". Clin Oncol (R Coll Radiol). 23 (4): 244–50. doi:10.1016/j.clon.2011.01.159. PMID 21296564. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Lin EC (2010). "Radiation risk from medical imaging". Mayo Clin. Proc. 85 (12): 1142–6, quiz 1146. doi:10.4065/mcp.2010.0260. PMC 2996147. PMID 21123642. {{cite journal}}: Unknown parameter |month= ignored (help)

• Roobottom CA, Mitchell G, Morgan-Hughes G (2010). "Radiation-reduction strategies in cardiac computed tomographic angiography". Clin Radiol. 65 (11): 859–67. doi:10.1016/j.crad.2010.04.021. PMID 20933639. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Kelly RM, Doyle P, Bennett J, McKavanagh P, Donnelly P, Ball PA (2011). "Re.: Radiation-reduction strategies in cardiac computed tomographic angiography". Clin Radiol. 66 (5): 485–6. doi:10.1016/j.crad.2010.12.007. PMID 21315323. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Scaife ER, Rollins MD (2010). "Managing radiation risk in the evaluation of the pediatric trauma patient". Semin. Pediatr. Surg. 19 (4): 252–6. doi:10.1053/j.sempedsurg.2010.06.004. PMID 20889080. {{cite journal}}: Unknown parameter |month= ignored (help)

• Hendrick RE (2010). "Radiation doses and cancer risks from breast imaging studies". Radiology. 257 (1): 246–53. doi:10.1148/radiol.10100570. PMID 20736332. {{cite journal}}: Unknown parameter |month= ignored (help)

• Goske MJ, Applegate KE, Bell C; et al. (2010). "Image Gently: providing practical educational tools and advocacy to accelerate radiation protection for children worldwide". Semin. Ultrasound CT MR. 31 (1): 57–63. doi:10.1053/j.sult.2009.09.007. PMID 20102697. {{cite journal}}: Explicit use of et al. in: |author= (help); Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Romano S, Romano L (2010). "Utilization patterns of multidetector computed tomography in elective and emergency conditions: indications, exposure risk, and diagnostic gain". Semin. Ultrasound CT MR. 31 (1): 53–6. doi:10.1053/j.sult.2009.10.002. PMID 20102696. {{cite journal}}: Unknown parameter |month= ignored (help)

• Birnbaum S (2010). "Radiation protection in the era of helical CT: practical patient based programs for decreasing patient exposure". Semin. Ultrasound CT MR. 31 (1): 46–52. doi:10.1053/j.sult.2009.09.006. PMID 20102695. {{cite journal}}: Unknown parameter |month= ignored (help)

• Tsapaki V, Rehani M, Saini S (2010). "Radiation safety in abdominal computed tomography". Semin. Ultrasound CT MR. 31 (1): 29–38. doi:10.1053/j.sult.2009.09.004. PMID 20102693. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Huppmann MV, Johnson WB, Javitt MC (2010). "Radiation risks from exposure to chest computed tomography". Semin. Ultrasound CT MR. 31 (1): 14–28. doi:10.1053/j.sult.2009.09.003. PMID 20102692. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Shetty MK (2010). "Abdominal computed tomography during pregnancy: a review of indications and fetal radiation exposure issues". Semin. Ultrasound CT MR. 31 (1): 3–7. doi:10.1053/j.sult.2009.09.001. PMID 20102690. {{cite journal}}: Unknown parameter |month= ignored (help)

• Devine CE, Mawlawi O (2010). "Radiation safety with positron emission tomography and computed tomography". Semin. Ultrasound CT MR. 31 (1): 39–45. doi:10.1053/j.sult.2009.09.005. PMID 20102694. {{cite journal}}: Unknown parameter |month= ignored (help)

• Gunn ML, Kohr JR (2010). "State of the art: technologies for computed tomography dose reduction". Emerg Radiol. 17 (3): 209–18. doi:10.1007/s10140-009-0850-6. PMID 19936808. {{cite journal}}: Unknown parameter |month= ignored (help)

• Street M, Brady Z, Van Every B, Thomson KR (2009). "Radiation exposure and the justification of computed tomography scanning in an Australian hospital emergency department". Intern Med J. 39 (11): 713–9. doi:10.1111/j.1445-5994.2009.01956.x. PMID 19323702. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

• Mayo JR (2008). "Radiation dose issues in longitudinal studies involving computed tomography". Proc Am Thorac Soc. 5 (9): 934–9. doi:10.1513/pats.200808-079QC. PMID 19056720. {{cite journal}}: Unknown parameter |month= ignored (help)

• Brenner DJ, Hall EJ (2007). "Computed tomography--an increasing source of radiation exposure". N. Engl. J. Med. 357 (22): 2277–84. doi:10.1056/NEJMra072149. PMID 18046031. {{cite journal}}: Unknown parameter |month= ignored (help)

I haven't looked at them yet, but I hope they'll provide a picture of the current state of the science on risk and CT. I'll get back to this later. --Anthonyhcole (talk) 09:12, 28 April 2012 (UTC)[reply]

"Effective dose estimates are best used to assess the general level of radiation risk and not to determine the exact radiation dose from an imaging study. Effective dose estimates for individual patients are subject to a substantial level of uncertainty." FROM http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2996147/?tool=pmcentrez — Preceding unsigned comment added by 79.177.205.166 (talk) 17:01, 28 April 2012 (UTC) "The effective dose is not measured but is a theoretical calculated dose based on the organs exposed by the applied radiation multiplied by tissue-weighting factors. Because the tissue-weighting factors can change with new data and continuing analysis of existing data, the effective dose estimates can change over time." FROM http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2996147/?tool=pmcentrez — Preceding unsigned comment added by 79.177.205.166 (talk) 17:06, 28 April 2012 (UTC)[reply]

I haven't read yet all the linked articles, but please pay attention that the cited source of the risk estimates, is usually the study of the Japanese survivors of the nuclear attack. This teach us that the scientific community lack theoretical capacity of estimation of the consequences of the molecular damage to the DNA, and thus attempt to estimate consequences that are easy to diagnose, i.e. cancer, statistically from that event. However radiation damage from a nuclear explosion may be different (lower or higher) than from pure x-ray, Japanese may have different (more/less) susceptibility to cancer (or other health conditions), and conditions that are difficult to diagnose were ignored.

The fact that radiation is certain to cause the molecular damage to the DNA was demonstrated in many experiments, and it is a matter that is related to physics/chemistry rather than medicine.

After the damage is caused, the process of repair of the damage was demonstrated experimentally to have certain odds of faults, due to which some faults remain. Conversely, the studies that showed reduced IQ, and more diseases, in people that were exposed to radiation, indicate that the function of the irradiated cells was altered, and that indicate that DNA alterations remained.

The diseases due to radiation are not limited to cancer: "The indices of morbidity of liquidators for endocrine system diseases exceed by 18.4 times the control ones, for psychical disorders - 9.6 times, for blood circulation diseases - 4.3 times, and all classes of diseases - 1.5 times." FROM http://www.rri.kyoto-u.ac.jp/NSRG/reports/kr21/kr21pdf/Burlakova.pdf , there is also the Swedish study of IQ at adulthood of irradiated infants, and also studies that showed that the IQ of children that were irradiated for cancer were reduced significantly and in a gradual way in a manner over time, each year the IQ was lower than the previous year, and children that started with above average IQ ended up with below average IQ: "The estimated decline in FSIQ after 4 years was 17.4 points." http://jco.ascopubs.org/content/19/15/3470.full http://jco.ascopubs.org/content/19/15/3470/F4.expansion.html — Preceding unsigned comment added by 79.177.205.166 (talk) 18:36, 28 April 2012 (UTC)[reply]

About this: "CT scans use a high level of ionizing radiation, which may cause DNA double strand breaks at a rate of 35 double strand breaks per Gray,[11]" - something is missing: the rate of "35 double strand breaks per Gray" is per cell. This point was included in the previous version. The number of DSBs is probably the average i.e. a particular cell may have more, or less DSBs. E.g. a chest CT cause 0.45 DSBs/cell which means that in 100 cells, on average, there would be 45 new DSBs due to the irradiation. Also about "which may cause DNA double strand breaks" - "may" is too relaxed - it would be very improbable that no DSB would occur, or that they would occur at a significantly lower rate. 79.177.205.166 (talk) 01:24, 29 April 2012 (UTC)[reply]

I apologise for the delay in getting back to you. It will take me some time to absorb all this, and I have a bit on at work. It may take a week or more before I can respond. --Anthonyhcole (talk) 16:37, 30 April 2012 (UTC)[reply]

[1] Doc James (talk · contribs · email) 18:54, 7 June 2012 (UTC)[reply]

We have an IP adding a great deal of unsupported content and content that does not pertain to CT.

Studies showed that radiation of ionizing radiation caused cognitive problems. Radiation of 60-310 mGy at the 8 to 15 weeks of gestation, or of 280-870 mGy at the 16 to 25 weeks of gestation caused mental retardation.^[1] Radiation of 100 mGy to the head at infancy caused cognitive deficits.^[2] Radiation of 1300-1500mGy to the head at childhood caused schizophrenia, and lowered IQ scores.^[1] Exposure of adults to 150−500 mSv caused cerebrovascular pathology, and exposure to 300 mSv caused neuropsychiatric, neurophysiological, neuroimmune, neuropsychological, and neuroimaging dose related effects.^[1]

This ref does not even mention CT in it [2].

All of the refs supporting this text are primary research papers

CT scans use a high level of ionizing radiation. Ionizing radiation has the capacity to break molecular bonds, and thus alter the molecular structure of the irradiated molecules. In the human body, a cell's operation is controlled by the chemical structure of the DNA molecule included in the cell. Experiments showed that ionizing radiation cause DNA double strand breaks at a rate of 35 double strand breaks per cell per Gray,^[3] and removes a portion of the epigenetic markers of the DNA,^[4] which regulate the gene expression. At the radiation doses, which typical CT scans impose, a DNA molecule of 40%-100% of the irradiated cells is damaged by one or more double strand breaks. This insult is followed by an effort of the cell in attempt to repair the damaged and broken DNA, however, the repair process is not perfect,^[5] and faults that are not properly repaired can cause the cell to stray from its original design of operation. The improper operation can manifest in cell death, cancer, and in other puzzling health conditions, as can be expected from an operation, which randomly alter cell's DNA, and epigenetic markers.^[6] A portion of the population possess a flawed DNA repair mechanism, and thus suffer a greater insult due to exposure to radiation.^[3] Unlike CT, MRI does not use ionizing radiation, and does not cause double strand breaks to the DNA.^[7]A Study found, that the contrast agent increased the radiation damage to the DNA that was caused by CT examination: The presence of iodinated contrast agent during CT increased the double strand breaks levels in peripheral lymphocytes by approximately 30%.^[8]

The refs supporting this also do not refer to CT contrast.

The amount of iodine that is administered with the contrast agent is way above the Tolerable Upper Intake Level (UL) for adults, which is 1,100 μg/day (1.1 mg/day), and thus side effects of excess iodine intake may occur. The tolerable upper limit was assessed by analyzing the effect of supplementation on thyroid-stimulating hormone. "Iodine supplementation over this limit has been shown to potentially contribute to an underlying thyroid pathology in those with Hashimoto’s thyroiditis, Graves’ disease, or exacerbation of nodularities in euthyroid individuals if intake exceeds 20 mg iodine or iodide. Population studies have shown excessive iodine intake may increase the prevalence of autoimmune thyroiditis in animals and humans, increasing the risk of overt hypothyroidism."^[9]

Doc James (talk · contribs · email) 21:23, 9 June 2012 (UTC)[reply]

Agreed, sources that do not explicitly mention CT do not belong here, per WP:SYNTH. Yobol (talk) 21:29, 9 June 2012 (UTC)[reply]

Response of 79.179.224.214 (talk) 22:43, 9 June 2012 (UTC) to First section: CT use high energy x-ray ionizing radiation, that cause the body to absorb a large dose of ionizing radiation. At the UK study page 96, during routine head, up to 140 mGy were absorbed. Now, this procedure would be performed twice, once with and once without iodine, thus multiplying the amount of radiation by two. Thus 280 up mGy would be absorbed. This page is from a hospital stating "Our shuttle mode CTP scanning protocol described above results in a radiation exposure, the volumetric CT dose index (CTDIvol), of 349 mGy.". The FDA allow radiation of up to 500 mGy, a limit that was imposed due to adverse effects, that did occur when CT machines output radiation exceeded that. In this document hosted on US governmental public health web site, it is stated on page 12, that at Ceder Sinai hospital, 269 patients each absorbed 4286mGy of ionizing radiation, more than twice of what radiation therapy patients absorb in a fractionated radiation therapy session. These patients experienced adverse effects of radiation therapy as can be seen at page 13, showing images of their hair loss. (Could someone upload these pictures?)[reply]

Now, given the fact, which I assume is not under dispute, that CT machines commonly subject patients to hundreds of mGys, and sometimes to thousands of mGys of ionizing radiation, it is important to described the studied adverse effects of ionizing radiation. This is not original research. CT inflict ionizing radiation on patients, and ionizing radiation cause adverse effects.

Response to Second section: You complain about use of primary research papers in the second section, however, I have reviewed the rules of Wikipedia, and found no rule forbidding use of primary research papers.

Response to Third section: I will think about it, and respond later.

Note, someone have deleted the section about kidney problems due to contrast media. That contribution was not mine, and I don't know where are the refs required for it. Why did that someone just delete stuff without asking for the refs, like by marking ^{[citation needed]} next to the wanted refs? 79.179.224.214 (talk) 22:43, 9 June 2012 (UTC)[reply]

79.179.224.214 (talk) 22:52, 9 June 2012 (UTC): I think that "Contrast" is not an adverse reaction. Death is, allergy is, etc. DNA damage is also an adverse reaction, but eating fried food cause DNA damage, being in the sun cause DNA damage, but not to the extent that the CT does. Thus the title should be extensive DNA damage, and not just DNA damage. 79.179.224.214 (talk) 22:52, 9 June 2012 (UTC)[reply]

You said

Now, given the fact, which I assume is not under dispute, that CT machines commonly subject 
patients to hundreds of mGys, and sometimes to thousands of mGys of ionizing radiation, it is important 
to described the studied adverse effects of ionizing radiation.

Everything on Wikipedia is continually under dispute. I think that the way to post this is to provide a source which states the range of radiation to which CT machines expose patients, then state that range and reference a source which says what happens at that range. Also link to a full article on ionizing radiation for sources which are not explicitly about CT scans. When you use a source which does not explicitly mention the article's subject that is WP:SYNTH.

Here is the requested Wikipedia rule which talks about primary sources - WP:PRIMARY. The ideal source is a secondary source which talks about the first paper.

You asked why a section was deleted for not having references when a citation needed tag could have been used. For health articles many editors use the Medical Manual of Style - WP:MEDMOS. This is because it is often easy to see when information is not from a secondary source or when it is contrary to popular understanding. On popular culture articles sometimes Wikipedia rules get relaxed and broken; in health articles editors tend to follow the rule for having verification for all statements per WP:V. Thanks a lot for your interest in this. Blue Rasberry (talk) 23:03, 9 June 2012 (UTC)[reply]

Yes we use secondary sources as mentioned by both Blue and Yobol. This [3] is not a secondary source. The key of WP:SYNTH is "Do not combine material from multiple sources to reach or imply a conclusion not explicitly stated by any of the sources". Only a percentage of CTs use contrast and contrast does have some extra risks. Thus it is reasonable to discuss contrast as a section to itself. I in fact added some references to the section on kidney issues. Doc James (talk · contribs · email) 23:09, 9 June 2012 (UTC)[reply]

The WP:PRIMARY doesn't state that primary sources can not be used, it just state how they should be used. Instead of helping with the semantics, you (DocJames) just destroy stuff. Why?79.179.224.214 (talk) 00:32, 10 June 2012 (UTC)[reply]

Please, I want to help and so many other people do also. If you want other opinions about what you are doing then consider going to the WP:TEAHOUSE, which is a place where new Wikipedia users can ask questions from very friendly people. Also consider registering an account so that you can have sustained conversations. No one wants to destroy work. If you have questions then try to be more specific than asking why things are removed - the answer is that Wikipedia has rules and I think that if you asked other people they would also say that your contributions are not following them. Check out primary and synth again. Blue Rasberry (talk) 02:15, 10 June 2012 (UTC)[reply]

The FDA mentions much lower levels of radiation from a CT (in the range of 2-8 mGy / mSv). This [4] is a primary source and it appears to be interpreted wrong. Doc James (talk · contribs · email) 23:28, 9 June 2012 (UTC)[reply]

79.179.224.214 (talk) 00:05, 10 June 2012 (UTC)[reply]

0.001 Gray = mGy is the real physics kind of unit, that measure radiation. It measure how many Joule are absorbed by one Kg of matter. Head CT as you can see in the UK study inflict about 60 mGy on average, but sometime as high as 140 mGy. This means that a Kg of an average head, that is examined, absorbs on average 0.06 Joule of energy. This doesn't seem as much, except that the energy is in a form of ionizing radiation, which make it large enough to cause a double strand break to two DNA molecules in every cell that was irradiated.

On the other hand mSv=0.001 Sievert is a made up unit, that I don't know who has concocted, that on theory work by estimating the real radiation cancer risk, and then stating the real radiation value, that if all the body would have been irradiated, the same risk would have been. Considering that estimation of cancer risks from radiation is still under debate, this unit should be considered under debate as well. Moreover, that unit hide other adverse effect that could occur, such as the extent of DNA damage.

Example, suppose you irradiate the head with 60 mGy, now they estimate the risk of cancer to be "X", and they estimate that irradiating the whole body with 1.5 mGy would also have cancer risk "X", and so they say that the effective dose is 1.5 mSv. Why the big difference? A. because they think that the head is primarily non proliferating cells, and thus have low cancer risk, B. suppose you spread the energy in joules, that the head absorbs with this 60mGy radiation, over the whole body, suppose the head weigh 2Kg this is 0.12 joules, and suppose the whole body weigh 60Kg, then that is 0.12joules/60Kg=0.002=2[joule/Kg]=2mGy; so if you irradiate with 2mGy the whole body, the same amount of ionizing radiation energy, and interactions with the DNA would occur, and thus the same cancer risk. I think this also helps doctors that like to subdue resistance of their patients, as I have seen stated in some article, the article with instructions for the Dr. went something like - state the radiation from the CT as 2mSv, then compare it to the background radiation level of 3mSv per year, which everyone absorbs anyways. But the head still absorbs 60mGy, and this is more like 20 years of background radiation.

79.179.224.214 (talk) 00:05, 10 June 2012 (UTC)[reply]

79.179.224.214 (talk) 00:36, 10 June 2012 (UTC) Oh grate. Now I see that even though you don't have a clue between mSv, to mGy, you have edited out all the sections about the doses in mGy. What is the motivation for that. Please do tell. 79.179.224.214 (talk) 00:36, 10 June 2012 (UTC)[reply]

79.179.224.214 (talk) 01:31, 10 June 2012 (UTC) Even better, now I see that you have decided that mGy=mSv for X-RAYs, and have put a dead link to prove it. Why do you change stuff you don't understand without consulting? BTW, mGy=mSv for xrays, only if the whole body is irradiated with the same value of radiation, something that doesn't occur often with CTs, even when the whole body is scanned, since the skull has to be bombard with higher radiation in order to get a clear glimps to what is inside bone. 79.179.224.214 (talk) 01:31, 10 June 2012 (UTC)[reply]

Fixed the ref for you. Doc James (talk · contribs · email) 01:33, 10 June 2012 (UTC)[reply]

79.179.224.214 (talk) 01:47, 10 June 2012 (UTC) The information at that page is wrong. Do you consider it a primary, secondary (or what kind of a source?) that you allow yourself to reference it? Had you read the UK Study, you would have read page 5-8 describing how the effective dose is calculated, which is clearly different than the CTDIvol, and you would have read page 31, in which side by side the for the same CT examination the mSv value is clearly different than the mGy value determined for the same examination. Why do you torment me?79.179.224.214 (talk) 01:53, 10 June 2012 (UTC)[reply]

Keep things simple by putting a reference at the end of every sentence. Do not draw conclusions which are not in your references. No one is tormenting you - Wikipedia's guidelines have been around for a long time and they are available for you to read. I really appreciate your interest and what you are trying to do but follow the rules and be WP:NICE. Blue Rasberry (talk) 02:20, 10 June 2012 (UTC)[reply]

I am sorry. I am just a bit frustrated, to see many of my contributions just deleted, without discussion, or attempt to rephrase them to fit the semantic requirements. Without a point by point examination. Etc. And to top it all, the one who have deleted my contributions, due to semantic reasons, has added an error backed up by a simple web page, that has an error in it. I think this is in violation of the rules, since it is not even a research, and there is a research that contradict that simple web page. I guess I can try to rephrase the contributions by myself, however, I don't think my contributions got a fair hearing here, and who is to say, that this will not happen again? and if so what is the point? 79.179.224.214 (talk) 02:55, 10 June 2012 (UTC)[reply]

The issue with your additions had to do with the references. The references where simply not appropriate.Doc James (talk · contribs · email) 05:28, 10 June 2012 (UTC)[reply]

Prove that. With a reference that prove it. And with an exact quote from that recerence. I think, that it is possible that you are wrong with the rules too.79.179.224.214 (talk) 06:15, 10 June 2012 (UTC)[reply]

Read WP:MEDRS "Ideal sources for biomedical material include general or systematic reviews in reliable, third-party, published sources, such as reputable medical journals, widely recognised standard textbooks written by experts in a field, or medical guidelines and position statements from nationally or internationally recognised expert bodies." Doc James (talk · contribs · email) 06:55, 10 June 2012 (UTC)[reply]

This does not prove it. It just state what is ideal. It does not state that non ideal sources can't be uses.79.179.224.214 (talk) 07:26, 10 June 2012 (UTC)[reply]

For important medical information we use ideal sources. Doc James (talk · contribs · email) 07:28, 10 June 2012 (UTC)[reply]

Prove that. With a reference that prove it. And with an exact quote from that recerence. I think, that it is possible that you are wrong with the rules too.79.179.224.214 (talk) 07:42, 10 June 2012 (UTC)[reply]

"1 mSv is the dose produced by exposure to 1 milligray (mG) of radiation." [5] Another ref is The essential physics of medical imaging (2. ed. ed.). Philadelphia [u.a.]: Lippincott Williams & Wilkins. 2002. p. 57. ISBN 9780683301182. {{cite book}}: |edition= has extra text (help); |first= missing |last= (help)

Yes I do know that number are different for CTDIw (which are in mGy) but the recommended measurement of diagnostic radiation is in mSv not mGy.

Doc James (talk · contribs ·email) 07:15, 10 June 2012 (UTC)[reply]

Did you notice that that quote is from a military book? Military in the context of radiation deals with radiation contamination due to radioactive substance, which form a uniform radiation through the whole body. This is not the case in CTs. If you look back you will see, that I have already addressed that issue in this talk page.79.179.224.214 (talk) 07:42, 10 June 2012 (UTC)[reply]

Who recommended? Why he/she recommended it? Do you have a primary or a secondary source? Prove it. 79.179.224.214 (talk) 07:58, 10 June 2012 (UTC)[reply]

That is why I provided "The essential physics of medical imaging"Doc James (talk · contribs · email) 08:00, 10 June 2012 (UTC)[reply]

This doesn't really answer my query. Anyway, what page? 79.179.224.214 (talk) 08:18, 10 June 2012 (UTC)[reply]

Per Applin, David (2002). Biology extension file (Rev. ed. ed.). Cheltenham: Nelson Thornes. p. 8. ISBN 9780748762569. {{cite book}}: |edition= has extra text (help) "the effect of ionizing radiation on the human body is measured in mSv" Thus we are not adding mGy.Doc James (talk · contribs · email) 08:39, 10 June 2012 (UTC)[reply]

Please provide the page. Without seeing the page, I can tell you that in other sources, in which similar things were written, the effect they talked about was cancer and hereditary effects. Those are the only body effects, that these scientist think that they know to measure, and yet there still is debate over the cancer risks figures, hence they don't really know, yet this unit exist. Do you know how it is computed? You take the mGy value and multiply it with a factor that correspond to the estimated sensitivity of the organ that was radiated. So, there you have it. The gray unit is the real thing. The Sievert is based on estimations, that are under debate. See the publication dates of these factors, they change them every few years as they figure out that the previous ones were off. The same dose in Gray would be one value of Sievert according to one year's factors, and an other on an other year.79.179.224.214 (talk) 08:55, 10 June 2012 (UTC)[reply]

I have added page numbers. Doc James (talk · contribs · email) 08:57, 10 June 2012 (UTC)[reply]

Thanks, I have managed to read the first one. Anyway, what do you think are the biological effects they talk about? Do you know how the effective dose is computed? Did you notice that many researches include the radiation absorbed dose in Gray, the CTDIvol in Gray? Does it cost you anything to include the absorbed dose in Gray?79.179.224.214 (talk) 09:11, 10 June 2012 (UTC)[reply]

I have asked you the above questions in order that you would educate yourself about them. This will help you understand that Sievert is not equal to Gray in the context of CTs. Did you understand that yet? Please read the dosimetry section here and chapter 3 here. This will help you understand that. Please Google search the following line: effective dose cancer hereditary. I didn't read the results, but according to google's short description, I think the 1st,6th, 7th results, would help you understand the answer to the first question. You might want to search in these document for cancer or hereditary.79.179.224.214 (talk) 16:38, 10 June 2012 (UTC)[reply]

I am guessing that you prefer books, if so, you can search the same thing in google books here is one result.79.179.224.214 (talk) 17:39, 10 June 2012 (UTC)[reply]

I think, that displaying only Sievert radiation dose values violates neutral point of view WP:NPOV. It is not up to anybody here to decide which units are "good". Radiation doses in Gray, and Gray*cm exist in the same source from which the Sievert values were taken. If that source is acceptable for Sievert it should be acceptable for Gray, and Gray*Cm. — Preceding unsigned comment added by 79.182.215.205 (talk) 20:36, 14 June 2012 (UTC)[reply]

This article [6] from the New England Journal of Medicine clearly states CT is measured in both absorbed dose in Gray and in estimated equivalent effective dose in sieverts. Additionally FDA notes estimates can vary by factor of 10 so there's clearly justification for including both in the article. [7] Nobody Ent 21:18, 14 June 2012 (UTC)[reply]

I am happy to work together to improve this page if we all use pubmed index review article from the last 5-8 years that directly refer to the effects of CT imaging.Doc James (talk · contribs · email) 07:10, 10 June 2012 (UTC)[reply]

Lets start with what we can agree up on, and then get to resolve what we can't. I suggest to start with the Extensive DNA damage section. What is wrong with that section according to you? 79.179.224.214 (talk) 07:51, 10 June 2012 (UTC)[reply]

Sure "Extensive DNA damage" is not an adverse effect per say. It is the pathophysiological process that results in cancer. Ie people do not come in complaining of extensive DNA damage. There are some good references for cancer. We do not need to resort to in vitro studies or animal models. It is well accepted that CT imaging causes cancer. Doc James (talk · contribs · email) 07:56, 10 June 2012 (UTC)[reply]

From Adverse effect "In medicine, an adverse effect is a harmful and undesired effect resulting from a medication or other intervention such as surgery.". Do we agree that DNA damage is harmful/undesired? Cancer is just one form of DNA damage, that is easy to detect, because people die from it, and they have strange lumps all over their bodies when they so die. Other types of DNA damage do occur, and their health effect are described in one of the referenced articles, which found all diseases among people exposed to radiation in chernobyl to rise. There is also the cognitive deficits, hair loss, etc, all are due to DNA damage, and how many issues, or preformance indicators, doctors have problem to diagnose and are not addressed by research due to that? The DNA is the engine of life, therefor damage to it is an adverse effect. Can we agree? 79.179.224.214 (talk) 08:13, 10 June 2012 (UTC)[reply]

We should be looking at hard end point rather than surrogate markers, DNA damage is a surrogate marker. Here is an interesting review Pauwels, EK (2011 Sep 1). "Cancer induction caused by radiation due to computed tomography: a critical note". Acta radiologica (Stockholm, Sweden : 1987). 52 (7): 767–73. PMID 21742785. {{cite journal}}: Check date values in: |date= (help); Unknown parameter |coauthors= ignored (|author= suggested) (help) Doc James (talk · contribs · email) 08:22, 10 June 2012 (UTC)[reply]

I think that Extensive DNA damage is not a surrogate marker. DNA damage cause the cells to function improperly which is a culprit for other diseases and sub-optimal performance. This is an issue that I think is of interest to most people. But this is a debate of the importance of that adverse effects, which I think is redundant, because I think that the adverse effects section should include all adverse effects. Just like in a medication leaflet there could be adverse effects from a small itch up to an agonizing death.79.179.224.214 (talk) 08:41, 10 June 2012 (UTC)[reply]

DNA damage may result in neither signs nor symptoms and thus is not an adverse effect. But let hear what others have to say. Doc James (talk · contribs · email) 08:56, 10 June 2012 (UTC)[reply]

When one take a medication, one may experience no side effects, despite the label describing a side effect. Adverse effects are things that can happen as a result of the procedure, not only things that are sure to happen. As it happens to be, the DNA damage is 100% certain to happen. The only question is which part of the DNA would be damaged? would it be fixed correctly? what genetic information would be lost due to homologue recombination? How all of that effect the body function? One of the answers to this is cancer. But other answers also exist. As DNA damage can be harmful and is undesired (do anyone desire DNA damage?) it is an adverse effect 79.179.224.214 (talk) 09:27, 10 June 2012 (UTC)[reply]

Btw, can you use similar logic to claim that cancer is not an adverse effect? I.e. something like - 'someone with cancer doesn't feel the cancer, cancer is not an adverse effect. Someone with cancer might feel pain, lack of appetite, these are the adverse reactions.'. If yes, should we replace the cancer title with a list of cancer symptoms? 79.179.224.214 (talk) 09:40, 10 June 2012 (UTC)[reply]

Lets continue on the above two topics, and also on more topics: What is wrong by you with the cognitive decline section?79.179.224.214 (talk) 17:10, 10 June 2012 (UTC)[reply]

The same thing as with all the content in question. It was not supported by proper references. If you insist on using primary sources there is really nothing more to discuss. Doc James (talk · contribs · email) 22:43, 10 June 2012 (UTC)[reply]

This is a return to the above discussion, which ends with that I ask you for a proof that only ideal sources can be used, and you not replying. You must prove your opinion or abandon it. — Preceding unsigned comment added by 79.179.224.214 (talk) 23:06, 10 June 2012 (UTC)[reply]

Hi 79.179.224.214. First off, have you considered creating creating an account? There are a number of benefits to doing so and it makes communication/referring to one another much easier.

I'm sure that James has linked you to WP:MEDRS. Take a look at section 2, "Basic advice", with emphasis on subsections 2.4–2.6. Does that page explain well why James is asking that review articles be used over an original research piece? It's because hundreds to thousands of papers involving CT scans are published every year, and for a tertiary source like Wikipedia, we are best off using sources that have already attempted to survey and appropriately weight the relevant literature. NW (Talk) 04:20, 11 June 2012 (UTC)[reply]

Hi NW. I have reviewed sections 2.4–2.6 of the WP:MEDRS, and I do not see there any statement that primary sources should never be used. On the other hand, I see a lot of statements that primary sources can be used, and describe how primary sources should be used.

E.g. 2.4 "Where In vitro and animal-model data are cited on Wikipedia, it should be clear to the reader that the data are pre-clinical, and the article text should avoid stating or implying that the reported findings necessarily hold true in humans. The level of support for a hypothesis should be evident to the reader.","Results of studies cited or mentioned in Wikipedia should be put in sufficient context that readers can determine their reliability."

2.5 "These instructions are appropriate for actively researched areas with many primary sources and several reviews and may need to be relaxed in areas where little progress is being made or few reviews are being published."

2.6 "Whenever writing about medical claims not supported by mainstream research, it is vital that third-party, independent sources be used. Sources written and reviewed by the advocates of such marginal ideas can be used to describe personal opinions".

For medications, an adverse effects report usually rely on patients' description of their feelings. Here we have scientific researches, that found the adverse effects by means of scientific measurements, and not only by asking patients how they feel. This is a whole order of magnitude grater evidence, and a more objective evidence, than what is commonly accepted for reports of adverse effects. If subjective feeling reports are accepted for reports of adverse effects, then scientific measurements must be accepted as well.

I think that it is important, that people will have all the information with regard to adverse effects, when they are offered a medical procedure. Hiding such information is lying by omission. It is not ethical.

The deletions that Mr. DocJames has performed were not properly explained, and therefor it is impossible to understand the justification. He didn't define the researches that were used, one by one, as primary, secondary, etc. He didn't quote each contribution point, and described which point of the WP:MEDRS it violates. Am I expected to accept DocJames' decisions just because he said so? I think not. I think that if a deletion have merit, then that merit should be explained and proven in detail. 79.179.224.214 (talk) 14:43, 11 June 2012 (UTC)[reply]

Isn't this article a secondary review? (see e.g. page 25 that include a table, that concentrate many other researches that were reviewed.)

You stated that you think, that I have "not explained why primary sources need to be used in this situation". Does this mean that you think that in some cases primary sources can be used? 79.179.224.214 (talk) 17:23, 11 June 2012 (UTC) I found this article stating "Radiation induces thousands of single-strand breaks per Gray, but only about 50 double-strand breaks." Is this a secondary source?79.179.224.214 (talk) 18:41, 11 June 2012 (UTC) How about "20–40 DSB foci per nucleus per Gray of radiation for a mammalian cell" ? How about "For X-rays, on average 20–30 DSBs are induced per Gray"?79.179.224.214 (talk) 18:49, 11 June 2012 (UTC) In this case, I don't understand why would anyone prefer to quote a secondary review, in which it is difficult to find how the given fact was determined, over a primary source in which it is clear. An other point, is that Xray creation of DSBs in DNA is a subject of physics not medicine. Thus WP:MEDRS should not apply. 79.179.224.214 (talk) 19:15, 11 June 2012 (UTC)[reply]

Few things regarding this article 1) is it pubmed indexed, I am unable to find it on pubmed 2) not once does it mention CT scans thus not sure how it is applicable to this article (this article is about Chernobyl) 3) the radiation doses (>0.3 S or 300 mSv) are many times greater than that from CT imaging. Doc James (talk · contribs · email) 08:06, 12 June 2012 (UTC)[reply]

Regarding the dose - the article describe 10mSv to the fetus (which is a whole body exposure to the fetus, and thus equal 10mGy to the abdomen of the mother), 0.1 Gy= 100 mGy to the head of a child, and 0.15 Sv=150 mSv whole body exposure of adult (from a uniform external source, which means that each part of the body including the head absorbed 150mGy). These doses are within the expected doses of contemporary CT scanners.

Regarding the applicability to CT - The article describe the effect on cognitive performance of many sources of radiation, including xray radiation therapy. One of the primary sources referred to in that article state:

"External radiotherapy to the head of infants with dose levels that overlap those from computed tomography may adversely affect intellectual development."

"Irradiation of the brain with dose levels overlapping those imparted by computed tomography can, in at least some instances, adversely affect intellectual development. Although formal diagnostic protocols do not advocate computed tomography in cases of minor head injuries, clinical practice dictated by legal and financial considerations does not always adhere to these protocols. The risk and benefits of computed tomography scans in minor head trauma need re-evaluating.".

Clearly, if radiation from radiotherapy was not effectively the same as from CT, that primary source wouldn't have advised to reevaluate the risks and benefits from CT.

Moreover, the secondary article's review of many cases, that affected human being's cognitive performance, due to radiation from various sources, and during various procedures. It is clear from that, that the ionizing radiation has the effect on the cognitive performance regardless of its source, be it radiation therapy, a yellow CT machine, or a purple one.

Please ignore the following, since it is a common sense remark, and AFIK common sense remarks doesn't count according to Wikipedia rules, but ionizing radiation break molecular bonds, and molecular composition is what affect the performance of the cells. As long as the same molecular changes occur, the same effects will result. Thus it doesn't matter much where the Xrays came from. 79.181.241.242 (talk) 17:15, 12 June 2012 (UTC)[reply]

A paragraph from "Computed Tomography — An Increasing Source of Radiation Exposure", that support my view with regard to "Biologic Effects of Low Doses of Ionizing; Radiation Mechanism of Biologic Damage;Ionizing radiation, such as x-rays, is uniquely energetic enough to overcome the binding energy of the electrons orbiting atoms and molecules; thus, these radiations can knock electrons out of their orbits, thereby creating ions. In biologic material exposed to x-rays, the most common scenario is the creation of hydroxyl radicals from x-ray interactions with water molecules; these radicals in turn interact with nearby DNA to cause strand breaks or base damage. X-rays can also ionize DNA directly. Most radiation-induced damage is rapidly repaired by various systems within the cell, but DNA double-strand breaks are less easily repaired, and occasional misrepair can lead to induction of point mutations, chromosomal translocations, and gene fusions, all of which are linked to the induction of cancer.23"

Thus the source of the ionizing radiation is irrelevant for its biological effect.

This paragraph also support the DNA damage section that was removed.

And this article is a secondary source about CT.79.181.241.242 (talk) 20:36, 12 June 2012 (UTC)[reply]

User:79.179.224.214 has requested mediation for this issue here - Wikipedia:Dispute_resolution_noticeboard#X-ray_computed_tomography

I feel like that request is premature because discussion is still happening on this talk page. The discussion only began on 9 June. I think that Doc James has a legitimate concern that User:79.179.224.214 wants to use primary sources, and I think that User:79.179.224.214 has not explained why primary sources need to be used in this situation. Blue Rasberry (talk) 15:35, 11 June 2012 (UTC)[reply]

I am a volunteer clerk/mediator at the Wikipedia:Dispute resolution noticeboard. There is no requirement for anyone to respond at WP:DRN, but I wanted everyone involved to be notified in case they chose to join the discussion there. In my opinion, in this particular case it is useful to have a discussion at DRN. I have given 79.179.224.214 some advice there that I hope will resolve this issue. --Guy Macon (talk) 17:16, 11 June 2012 (UTC)[reply]

One of our readers wrote me through Wikipedia complaining about the state of this page. Thus why I am involved. There is tons of excellent secondary sources which discuss the risk / benefits of CT imaging with due weight. Using primary sources or sources that do not pertain to CT imaging specifically is not needed in this case. And we do not use primary sources typically to refute secondary ones. Doc James (talk · contribs · email) 08:12, 12 June 2012 (UTC)[reply]

I am a volunteer clerk/mediator at the Wikipedia:Dispute resolution noticeboard. I am working on what may be a related issue here. As you can see, this has involved telling a particular editor that he cannot use primary sources the way he wants on this page. Meanwhile, the page has been put under full protection for a week. Is there anything else that we at WP:DRN can do to help with this problem? --Guy Macon (talk) 09:00, 12 June 2012 (UTC)[reply]

Appreciate your efforts. One of the keys I find to editing Wikipedia is that editors should start by finding the best available evidence and than summarizing it, rather than starting with preconceived ideas and looking for evidence to support those ideas.Doc James (talk · contribs · email) 11:47, 12 June 2012 (UTC)[reply]

It's not clear to me what you mean by that remark. Expertise in a field is a valuable, often lacking, resource on Wikipedia that we should encourage rather than discourage. The difficultly is, of course, our editing standards are significantly different than other venues; it can be a difficult and frustrating experience for the both the established Wikipedian and new expert editor to break through cultural differences and find common ground. Nobody Ent 21:22, 14 June 2012 (UTC)[reply]

What I mean is that it appears some editors come with personal conclusions and than try to find evidence to support them rather than coming with an open mind and simply summarizing the best available literature.Doc James (talk · contribs · email) 21:29, 14 June 2012 (UTC)[reply]

Doc James, some times people attribute their own faults to others. I think, that it would be in your best interest to reevaluate your position in this.

79.182.215.205 (talk) 22:06, 14 June 2012 (UTC)[reply]

I would encourage the IP to heed Doc James' advice here. Experts can be especially important because they often know where the best sources to use are. Experts, however, are not allowed to substitute their judgements about a topic or to WP:UNDUEly weight certain aspects of a topic against what is dictated by our sources. Yobol (talk) 22:13, 14 June 2012 (UTC)[reply]

Yobol, quoting rules without explaining how they apply in the specific situation is a very good way to say something, without saying anything at all.

79.182.215.205 (talk) 23:08, 14 June 2012 (UTC)[reply]

What part of "It appears some editors come with personal conclusions and than try to find evidence to support them rather than coming with an open mind and simply summarizing the best available literature." is quoting a rule without explaining how it applies? The advice is good. Your continued hostility towards Doc James is toxic. He wants what is best for the article too. --Guy Macon (talk) 23:25, 14 June 2012 (UTC)[reply]

That comment was a reply to Yobol, including his/her reference to WP:UNDUE, however, since you bring it up, it could apply to Doc James as well. See the discussion in the above sections.

79.182.215.205 (talk) 23:42, 14 June 2012 (UTC)[reply]

In far less time than it took to read through the WQA and the DRN and this talk page I found two secondary sources [8], [9] that support much of what the new editor is saying. It's ridiculous to dismiss obvious expert knowledge because a new editor hasn't learned all of the WP-this and WP-that. See WP:IAR. And WP:BITE, of course. Nobody Ent 01:39, 15 June 2012 (UTC)[reply]

Both those sources are already used in this article, and neither appear to address disputed content such as cognitive defects and schizophrenia or address the inappropriate use of primary sources or synthesis. Indeed, I'm not sure what disputed content you think is supported by the references you presented; no one disputes there are risks from CT, just that we need to present them appropriately. Yobol (talk) 02:43, 15 June 2012 (UTC)[reply]

I was the one who added both those sources :-) and there are many more great ones. Agree completely that their are risk from CT.

Here is another good source Linet, MS (2012 Feb 3). "Cancer risks associated with external radiation from diagnostic imaging procedures". CA: a cancer journal for clinicians. PMID 22307864. {{cite journal}}: Check date values in: |date= (help); Unknown parameter |coauthors= ignored (|author= suggested) (help) Doc James (talk · contribs · email) 03:36, 15 June 2012 (UTC)[reply]

The following is the section that was deleted regarding Extensive DNA damage:

CT scans use a high level of ionizing radiation. Ionizing radiation has the capacity to break molecular bonds, and thus alter the molecular structure of the irradiated molecules. In the human body, a cell's operation is controlled by the chemical structure of the DNA molecule included in the cell. Experiments showed that ionizing radiation cause DNA double strand breaks at a rate of 35 double strand breaks per cell per Gray,^[3] and removes a portion of the epigenetic markers of the DNA,^[10] which regulate the gene expression. At the radiation doses, which typical CT scans impose, a DNA molecule of 40%-100% of the irradiated cells is damaged by one or more double strand breaks. This insult is followed by an effort of the cell in attempt to repair the damaged and broken DNA, however, the repair process is not perfect,^[11] and faults that are not properly repaired can cause the cell to stray from its original design of operation. The improper operation can manifest in cell death, cancer, and in other puzzling health conditions, as can be expected from an operation, which randomly alter cell's DNA, and epigenetic markers.^[12] A portion of the population possess a flawed DNA repair mechanism, and thus suffer a greater insult due to exposure to radiation.^[3] Unlike CT, MRI does not use ionizing radiation, and does not cause double strand breaks to the DNA.^[13]

A Study found, that the contrast agent increased the radiation damage to the DNA that was caused by CT examination: The presence of iodinated contrast agent during CT increased the double strand breaks levels in peripheral lymphocytes by approximately 30%.^[14]

If you like secondary sources, I think, that the following paragraph from a secondary source, that was already in the article, is supporting the part marked in bold letters:

"Biologic Effects of Low Doses of Ionizing Radiation

"Mechanism of Biologic Damage

Ionizing radiation, such as x-rays, is uniquely energetic enough to overcome the binding energy of the electrons orbiting atoms and molecules; thus, these radiations can knock electrons out of their orbits, thereby creating ions. In biologic material exposed to x-rays, the most common scenario is the creation of hydroxyl radicals from x-ray interactions with water molecules; these radicals in turn interact with nearby DNA to cause strand breaks or base damage. X-rays can also ionize DNA directly. Most radiation-induced damage is rapidly repaired by various systems within the cell, but DNA double-strand breaks are less easily repaired, and occasional misrepair can lead to induction of point mutations, chromosomal translocations, and gene fusions, all of which are linked to the induction of cancer.23"

The rest of the facts are supported by primary sources, which is allowed if certain limitations are met, and I think that they are met, or can be met. If anyone think that they don't meet the limitations, please point out why, and suggest how to correct. — Preceding unsigned comment added by 79.182.215.205 (talk) 17:18, 15 June 2012 (UTC)[reply]

I would support a brief discussion of the radiation effects on DNA, as it is a necessary explanation of why cancer is being discussed. However, we should not go into any significant details (i.e. # of breaks per gray, etc), as that level of detail is not appropriate in an overview article about CT scans, and not particularly helpful to the general reader. I would expect a discussion of relevant clinical endpoint like the rates of cancer to deserve much more WP:WEIGHT. A couple of sentence introduction to the cancer section that discusses the mechanism in general terms would probably be most appropriate (a rewritten summary of the secondary source above would be adequate, IMO). Yobol (talk) 17:26, 15 June 2012 (UTC)[reply]

1. In my opinion because the probability of the extensive DNA damage to occur due to the CT is 100%, while the cancer effect is estimated to occur in low percentage of the cases, the weight of the DNA damage is grater.
2. I think that anyone would prefer to know what is sure to happen over things that just might happen.
3. I think that saying DNA damage, without saying the magnitude of the DNA damage is akin to saying nothing, because people are used to hear, that bad food cause DNA damage, and many other things that they are exposed to in their daily life cause DNA damage. Thus, without describing the magnitude, they might think, that there is no difference between eating bad food, and taking a CT scan, where the difference is really very big.
4. I think, that DNA damage deserve its own section, because cancer represent only one type of DNA code, that the DNA damage can cause. Many other codes occur, and their effect include cognitive decline, increased morbidity, and mortality.
5. I think that all adverse effects have due weight.
6. I agree that the cancer section lack probabilities for cancer induction. I think perhaps the right location for such probabilities to be presented is in a "dose by probability to induce cancer in a 30 year old adult" titled column at the typical dose table.

   79.182.215.205 (talk) 18:44, 15 June 2012 (UTC)[reply]

The secondary source you presented (the NEJM article) does not put any significant WP:weight on specific details like the # of breaks. As such, if secondary sources do not put weight on that, neither should we. Yobol (talk) 19:03, 15 June 2012 (UTC)[reply]

1. That secondary resource thinks, that DNA double-strand breaks are a very important kind of DNA lesions: "DNA double-strand breaks are less easily repaired, and occasional misrepair can lead to induction of point mutations, chromosomal translocations, and gene fusions, all of which are linked to the induction of cancer." That secondary source discuss the risk for cancer from radiation doses. Radiation dose is linearly related to DSB induction per cell. It is true, that it wasn't spelled out for us in this article in DSBs but in Grays, but since the relation between the two is linear, the WP:weight of DSBs is just high as the WP:weight of radiation dose.
2. You ignored all my previous points. Especially points 1, 2, 3, 4, and 5. — Preceding unsigned comment added by 79.182.215.205 (talk) 20:56, 15 June 2012 (UTC)[reply]

What you or I think is less relevant to the weight we get from our secondary sources. I would prefer not to get into an argument about what you or I believe should be in the article, but rather let our secondary sources tell us what should be in the article. In this case, the source you present does not give weight to such detail as # of breaks per gray, neither should we. Yobol (talk) 20:59, 15 June 2012 (UTC)[reply]

1. I showed you that according to the secondary source the number of DSBs is important. That is not just my opinion. The secondary source support that.
2. If you don't think that all adverse effect are important, I can search for you for a secondary source that will say so, please let me know.

   79.182.215.205 (talk) 21:42, 15 June 2012 (UTC)[reply]

Nowhere in the secondary source does it discuss specific numbers, or go into that significant detail. I think this is an encyclopedia that discusses only the most important topics (rather than every single minutiae one editor wants to talk about), so we need to select the most important adverse effects, as suggested by high quality secondary sources. Yobol (talk) 22:20, 15 June 2012 (UTC)[reply]

Are you able to understand, that the secondary source reports, that DSBs are an important adverse effect?

79.182.215.205 (talk) 23:13, 15 June 2012 (UTC)[reply]

I have already said we should briefly discuss DNA damage in my first reply in this thread. I do not, however, think we should be discussing it at any length or details beyond what our high quality secondary sources say about it. Yobol (talk) 23:19, 15 June 2012 (UTC)[reply]

Well, our secondary article has devoted a whole paragraph to it, and a large font title. I hope that you agree to devote as much.

79.182.215.205 (talk) 00:42, 16 June 2012 (UTC)[reply]

The following is the deleted Cognitive decline section, which was deleted due to not mentioning CT in the refs:

"Studies showed that radiation of ionizing radiation caused cognitive problems. Radiation of 60-310 mGy at the 8 to 15 weeks of gestation, or of 280-870 mGy at the 16 to 25 weeks of gestation caused mental retardation.^[1] Radiation of 100 mGy to the head at infancy caused cognitive deficits.^[15] Radiation of 1300-1500mGy to the head at childhood caused schizophrenia, and lowered IQ scores.^[1] Exposure of adults to 150−500 mSv caused cerebrovascular pathology, and exposure to 300 mSv caused neuropsychiatric, neurophysiological, neuroimmune, neuropsychological, and neuroimaging dose related effects.^[1]"

First, CT was mentioned in one of the refs:

"The dose delivered to the brain of an infant during computed tomography of the skull is around 120 mGy."

"External radiotherapy to the head of infants with dose levels that overlap those from computed tomography may adversely affect intellectual development."

"Irradiation of the brain with dose levels overlapping those imparted by computed tomography can, in at least some instances, adversely affect intellectual development. Although formal diagnostic protocols do not advocate computed tomography in cases of minor head injuries, clinical practice dictated by legal and financial considerations does not always adhere to these protocols. The risk and benefits of computed tomography scans in minor head trauma need re-evaluating."

Second, this proves, that the experts opinion is that what matter for cognitive decline is the absorbed dose in Gray units, and not the protocol of the administration of the radiation dose, be it radiotherapy or CT.

Third, the other refs also include evidence of cognitive decline with absorbed dose overlapping those imparted by computed tomography, and thus should be included.

Forth, the other refs also include evidence of cognitive decline from various administration protocols of the absorbed dose, thus also proving that the administration technique is not relevant. — Preceding unsigned comment added by 79.182.215.205 (talk) 17:47, 15 June 2012 (UTC)[reply]

Please present appropriate secondary sources per WP:MEDRS, to establish WP:weight. Yobol (talk) 17:52, 15 June 2012 (UTC)[reply]

"DO LOW DOSES OF IONIZING RADIATION AFFECT THE HUMAN BRAIN?" is a secondary source for radiation induced cognitive decline, as it review many studies in the matter.

79.182.215.205 (talk) 18:48, 15 June 2012 (UTC)[reply]

That article seems to be studying radiation accidents, not medical procedures. What is your proposed edit in this article, and what text in that source are you proposing to use to support that edit? Yobol (talk) 19:01, 15 June 2012 (UTC)[reply]

The source is not pubmed indexed. And just as a heads up not all secondary sources are high quality. We prefer to use high impact journals with good peer review. Doc James (talk · contribs · email) 19:07, 15 June 2012 (UTC)[reply]

Did not realize it wasn't MEDLINE indexed. That is a huge red flag, and would wait for a better source before discussing this further. Yobol (talk) 19:08, 15 June 2012 (UTC)[reply]

1. Why does it matter where source is indexed or published?
2. The paper was made by Dept of Radiation Psychoneurology, Institute for Clinical Radiology, State Institution "Research Centre for Radiation Medicine of Academy of Medical Sciences of Ukraine". If you think that they are not an appropriate source please explicitly say so and explain why.
3. My proposed edit is the edit that was deleted. The statements in that edit are from this paper review of other papers. The other papers include pubmed indexed papers IIRC, and included medical procedures, not just radiation accidents.
4. The other papers should be accepted also as facts determined from primary sources. — Preceding unsigned comment added by 79.182.215.205 (talk) 20:13, 15 June 2012 (UTC)[reply]

Sources for medical information need adequate peer review. Articles published in non MEDLINE indexed journal, in my experience, tend to not be adequately peer reviewed and of poor quality. If it is an important aspect that should be in this article, it should not be a problem finding another source that complies with MEDRS to use. Yobol (talk) 20:18, 15 June 2012 (UTC)[reply]

Here are some of the articles, that I found in pubmed: "Long-term cerebral effects of small doses of x-irradiation in childhood as manifested in adult visual evoked responses.","Threshold for radiation-related severe mental retardation in prenatally exposed A-bomb survivors: a re-analysis.", and this in cancer.gov:"Late Effects of Treatment for Childhood Cancer".

79.182.215.205 (talk) 21:36, 15 June 2012 (UTC)[reply]

The first two are primary articles and not appropriate. The 3rd does not discuss CT scans as far as I can tell. Please limit the suggestions to MEDRS compliant sources that discuss CT scans. Thanks. Yobol (talk) 21:40, 15 June 2012 (UTC)[reply]

Why are the first two articles not appropriate? They are in pubmed like you required. The third article discuss cognitive effects of radiation from radiation therapy. In some cases CT emit radiation of the range of a radiation therapy session.

21:46, 15 June 2012 (UTC) — Preceding unsigned comment added by 79.182.215.205 (talk)

Here is a pubmed index of "Effect of low doses of ionising radiation in infancy on cognitive function in adulthood: Swedish population based cohort study." and of a secondary article referring to it "Low radiation doses; are they harmful in infancy?".

79.182.215.205 (talk) 22:09, 15 June 2012 (UTC)[reply]

They are primary studies, and therefore do not deserve WP:WEIGHT to be discussed. I get the sense that you want to include this information (for whatever reason) and are now trying to justify it, rather than finding high quality sources and summarizing them and letting the sources dictate what should be in the article. That is not the appropriate way to write a good encyclopedia article. Yobol (talk) 22:22, 15 June 2012 (UTC)[reply]

I just don't understand how you rate the articles. This one is secondary "Low radiation doses; are they harmful in infancy?", why do you say that it is primary? How about the following one, which pubmed tag as a review? "Radiation-related brain damage and growth retardation among the prenatally exposed atomic bomb survivors.". Aren't reviews considered good? — Preceding unsigned comment added by 79.182.215.205 (talk) 23:10, 15 June 2012 (UTC)[reply]

The first is an editorial (not a review article) published in an obscure journal; while technically secondary, per MEDRS we prefer reviews (preferably systematic reviews, but literature reviews can be good as well) and not editorials, especially ones in obscure Greek journals. The second is a review, but of prenatal exposure to the atomic bomb, and not CT scans. At some point you need to find high quality reviews, preferably in high impact journals, that speak about CT scans (such as NEJM). That you seem intent on throwing out poor source after poor source unfortunately speaks again to the fact that you seem determined to add specific information regardless of what the high quality sources tell us we should be adding. Yobol (talk) 23:17, 15 June 2012 (UTC)[reply]

How do you determine if an article is a review, or a systematic review, or a literature review, or an editorial? How do you know if it is from a good journal?

First you said that the article I found is no good because it is primary, and it have to be secondary to be good, then when I found a secondary article, you said that it is no good, and for it to be good it has to be pubmed indexed, then I found a pubmed indexed article, and you tell me oh right, it is pubmed indexed, but it is no good because it is from Greece. Give me a brake. I honestly think, that the sources I found are good, you say they aren't because of this or that, and I find a new article, and you find a new reason to trash it. Maybe you are right, and there is an obscured set of rules for identifying quality articles, but you haven't disclosed them rules, and for all I know, you (for whatever reason) may be inventing the reasons to reject articles on the fly. Secondly, the adverse effect are from ionizing radiation, which is present during a CT scan - see an other (hopefully a) review article, "Environmental factors associated with a spectrum of neurodevelopmental deficits.", that list ionizing radiation as a neurotoxicant.

Yobol, note that you didn't answer many of my questions above. I have asked the same question in the talk page of the medicine project, which you have referred me to, and someone there answered that it is OK to describe side effects to the ionizing radiation in an article about CT.

Why did you consider it to be OR?