Abstracts
OBJECTIVE:
Investigate the quality of data available on the internet with respect to pain after orthognathic surgery.
METHODS:
A careful search was conducted on the Internet in December, 2012. The most accessed websites browsers were employed for research using the terms: "pain" and "orthognathic surgery" together. The first 30 results of each portal were examined, and after applying the exclusion criteria, 29 sites remained. All remaining websites went through an evaluation process with online tools that investigated the quality, level of reading, accessibility, usability and reliability.
RESULTS:
Assessment criteria outcomes were considered unfavorable. Texts were considered difficult to read with inappropriate language for the general public. The mean global validation for the 29 websites of the LIDA instrument was 65.10, thereby indicating a structure of medium quality.
CONCLUSION:
Information about post-orthognathic surgery pain available on the internet is poorly written and unreliable. Therefore, candidates for orthognathic surgery must seek information from specialists who, in turn, should indicate reliable sources.
Orthognathic surgery; Pain; Internet; Information
OBJETIVOS:
verificar a qualidade dos dados disponíveis na internet a respeito da dor após cirurgia ortognática.
MÉTODOS:
para a realização desse estudo, foi feita busca criteriosa na internet, no mês de dezembro de 2012. As páginas de busca mais populares foram utilizadas para pesquisa, utilizando os termos "dor" e "cirurgia ortognática" inseridos juntos. Foram averiguados os 30 primeiros resultados de cada portal e, após aplicar os critérios de exclusão, restaram 29 sites, que passaram pelo processo de avaliação em ferramentas online, para investigar sua qualidade, nível de leitura, acessibilidade, usabilidade e confiabilidade.
RESULTADOS:
os resultados foram desfavoráveis para os critérios avaliados. O nível de leitura dos textos foi considerado difícil de ser lido, apesar de as informações terem como alvo o público geral. Para as 29 páginas da web, a média global da validação pelo instrumento LIDA foi de 65,10, indicando uma estrutura avaliada como tendo qualidade média.
CONCLUSÃO:
as informações na internet sobre dor pós-cirurgia ortognática são mal escritas e não confiáveis. Por isso, candidatos à cirurgia ortognática devem buscar informações de especialistas, que, por sua vez, devem indicar fontes confiáveis.
Cirurgia ortognática; Dor; Internet; Informação
INTRODUCTION
Patients have increasingly sought health information on the internet.11. Cooper CP, Mallon KP, Leadbetter S, Pollack LA, Peipins LA. Cancer Internet search activity on a major search engine, United States 2001-2003. J Med Internet Res. 2005;7(3):e36. , 22. Ressler PK, Bradshaw YS, Gualtieri L, Chui KK. Communicating the experience of chronic pain and illness through blogging. J Med Internet Res. 2012;14(5):e143. Researches show that over 70% of American adults seek health advice in the world computer network.33. Searching Online for Health Information. 2012 [Cited: 2013 Jul 12]. Available from: http://healthin30.com/2012/12/searching-online-for-health-information.
http://healthin30.com/2012/12/searching-...
4. Cooley DL, Mancuso AM, Weiss LB, Coren JS. Health-related Internet use among patients of osteopathic physicians. J Am Osteopath Assoc. 2011;111(8):473-82.
5. Eysenbach G, Kohler C. How do consumers search for and appraise health information on the world wide web? Qualitative study using focus groups, usability tests, and in-depth interviews. BMJ. 2002;324:573-7.
6. Livas C, Delli K, Ren Y. Quality evaluation of the available Internet information regarding pain during orthodontic treatment. Angle Orthod. 2013;83(3):500-6. - 77. Moretti FA, Oliveira VE, Silva EM. Access to health information on the internet: a public health issue? Rev Assoc Med Bras. 2012;58(6):650-8. The growth in the use of the World Wide Web for this matter functions as a mean of education and prevention88. Anhoj J, Jensen AH. Using the internet for life style changes in diet and physical activity: a feasibility study. J Med Internet Res. 2004;6(3):e28. in the health care of children,99. Walsh AM, Hyde MK, Hamilton K, White KM. Predictive modelling: parents' decision making to use online child health information to increase their understanding and/or diagnose or treat their child's health. BMC Med Inform Decis Mak. 2012;12:144. adolescents and adults.1010. Ammenwerth E, Schnell-Inderst P, Hoerbst A. The impact of electronic patient portals on patient care: a systematic review of controlled trials. J Med Internet Res. 2012;14(6):e162. In this context, internet users have also sought relevant information about dental procedures66. Livas C, Delli K, Ren Y. Quality evaluation of the available Internet information regarding pain during orthodontic treatment. Angle Orthod. 2013;83(3):500-6. with the intention to find out about patients' experiences and professionals' opinions with regard to a certain procedure.
When orthodontic treatment involves interaction with orthognathic surgery, the most frequent questions are about post-operative pain and discomfort.1111. Chegini S, Johnston KD, Kalantzis A, Dhariwal DK. The effect of anesthetic technique on recovery after orthognathic surgery: a retrospective audit. Anesth Prog. 2012;59(2):69-74. , 1212. Phillips C, Blakey G 3rd, Jaskolka M. Recovery after orthognathic surgery: short-term health-related quality of life outcomes. J Oral Maxillofac Surg. 2008;66(10):2110-5. Some authors assert that esthetics, psychosocial factors1313. Dujoncquoy JP, Ferri J, Raoul G, Kleinheinz J. Temporomandibular joint dysfunction and orthognathic surgery: a retrospective study. Head Face Med. 2010 Nov 17;6:27. and relief of functional problems are the main reasons leading patients to seek orthognathic surgery.1414. Kavin T, Jagadesan AG, Venkataraman SS. Changes in quality of life and impact on patients' perception of esthetics after orthognathic surgery. J Pharm Bioallied Sci. 2012;4:S290-3. On the other hand, they commonly give up due to fear of post-surgical pain.1515. Kim KS, Kim KN, Hwang KG, Park CJ. Capsicum plaster at the Hegu point reduces postoperative analgesic requirement after orthognathic surgery. Anesth Analg. 2009;108(3):992-6.
Based on the foregoing statements and due to the fact that an increasing number of patients use the internet to research health issues including orthognathic surgery, it is necessary to verify the nature quality of information available. Therefore, the present study aims at carefully assessing the information available on the internet about pain after orthognathic surgery.
MATERIAL AND METHODS
Research methods
A research was conducted on the internet in December, 2012. The five major browsers providing access to popular searching tools were used: Google (www.google.com), Bing (www.bing.com), Yahoo! (www.yahoo.com), Ask (www.ask.com) and AOL (www.aol.com). The following terms were used: "pain" and "orthognathic surgery". These terms were used together to simulate the typical on-line research of a lay patient. The exclusion criteria were as follows: Websites for promotional products, discussion groups, duplicates, video feeds and links to scientific articles (Fig 1). Author's name, profession and type of information of all eligible internet portals were also retrieved.
Quality assessment
Precision may be defined as the level of agreement between the information disclosed and the best evidence generally accepted in clinical practice. In this item, guidelines based on scientific evidence, textbooks and primary literature were used as source of reference to assess the precision of information provided by the websites.1616. Murray E, Burns J, See TS, Lai R, Nazareth I. Interactive Health Communication Applications for people with chronic disease. Cochrane Database Syst Rev. 2005 Oct 19;(4):CD004274. Three criteria were used: duration, etiology and pain management. Therefore, the following classification was used to evaluate precision: Score 0 = the subject of pain was not discussed; Score 1 = only one criterion was discussed; Score 2 = two criteria were discussed; Score 3 = all three criteria were discussed with important omissions; Score 4 = all three criteria were discussed with minor omissions; Score 5 = complete discussion. The end results were converted into percentages so as to render presentation of combined results easier.
Readability
It is measured by the reading skill an individual needs in order to understand what is written. Flesch Reading Ease Scale (FRES) was used to assess readability. FRES, average sentence length (ASL) and average number of syllables per word (ASW) are interconnected by means of the following equation: FRES = 206.835 - (1.015 x ASL) - 84.6 x ASW. The result may vary from 0 to 100. The higher the result is, the easier the text is to read. Texts scoring between 90 and 100 are considered easily understandable by a pupil in the fifth grade of primary school. Scores between 60 and 70 may be easily understood by pupils in the eighth and ninth grades of primary school. Lastly, scores not greater than 30 account for a reading level of university graduates or undergraduates. To increase the veracity of this study, a passage between 200-500 words was extracted from each website, and then copied and pasted in an online FRES calculator program (www.readabilityformulas.com/free-readability-formula-tests.php).
Complementary quality analysis was obtained by means of LIDA instrument (LIDA instrument, Version 1.2, Minervation Ltd, Oxford, United Kingdom). This validation tool was created to assess the architecture and content of health care websites, in which three distinct areas are assessed: accessibility, usability and reliability. Accessibility score is calculated when one fills out the address of the website in a personalized web platform (www.minervation.com/mod/LIDA). Subsequently, a questionnaire comprising nine questions appear to assess usability and reliability. Responses are graded from 0 to 3 (0: never; 1: sometimes; 2: most of the times; 3: always). This software produces final percentages that account for high, medium or low quality. LIDA score, which is the mean value of the three sub-scores, indicates the general classification of the website.
RESULTS
Research results
Research methods retrieved 150 websites for analysis of relevance. Meticulous initial selection led to a total of 29 websites that met the demands of the study (Table 2). Apparently, 12 advertisements, 19 discussions, 14 video feeds, 28 links to scientific articles, 27 duplicates, and 21 web pages with irrelevant content were excluded from the last phase of classification (Fig 1).
Questions of LIDA instrument used to assess usability (1-4) and reliability (5-9) of websites.
Precision
With regard to precision, and taking the criteria of duration, etiology and pain management into account, the following percentages were achieved: 24.14% of websites did not address the subject of pain; 34.49% of them discussed about pain based on one criterion, only; 17.25% discussed about pain based on two criteria; in 10.35% all three criteria were discussed with important omissions; in 13.80% all three criteria were discussed with minor omissions; and none of the researched websites conducted a complete discussion. The mean for all websites was 30.34. Standard deviation (SD) was 27.05.
Readability
Readability assessment revealed that FRES ranged between 27.6 and 71.5. The mean FRES value for all websites was 53.96. Therefore, they were all considered very difficult to read, and accounted for university graduate or undergraduate reading level.
Accessibility
Accessibility of all websites was considered medium (82.93 ± 10.86). Ten web pages were found to have high accessibility results (> 90%). The lowest result was found in two websites (63%). Six web pages had the highest accessibility results (94 %).
Usability
Mean usability of all websites was 53.31 ± 14.54. Two websites had the highest results (75%), in both of them information was provided by an oral and maxillofacial surgeon. The lowest result was found in one website of unknown authorship (17%).
Reliability
Reliability of all websites examined in this study was considered low (37.31 ± 13.62). The highest result was found in two websites both edited by oral and maxillofacial surgeons (53%). In one of them, reliability was 0 and the author was not identified.
LIDA results
The overall mean validation for the 29 websites was 65.10 ± 9.43, thereby indicating them to be of medium quality (Table 4). LIDA percentage results ranged from 37 to 74. The highest score was attributed to a website that discussed orthognathic surgery and whose author was an oral and maxillofacial surgeon. The lowest score was attributed to a website discussing on orthogenetic surgery, but which did not touch on the subject of pain and did not present the author's name and profession.
Evaluation of the websites in terms of precision, Flesch Easy Reading Scale (FRES), accessibility, usability, reliability and LIDA (* = the maximal score possible; between brackets = the mean corresponding percentages).
Mean and standard deviation (SD) values for the categories assessed - Percentage of score (n = 29).
DISCUSSION
The search for information on the internet enables an interchange of experiences among patients with similar health problems.1616. Murray E, Burns J, See TS, Lai R, Nazareth I. Interactive Health Communication Applications for people with chronic disease. Cochrane Database Syst Rev. 2005 Oct 19;(4):CD004274. The worldwide dissemination of this practice offers the possibility of globally exchanging knowledge.1717. Margariti M, Papadimitriou GN. Use of informatics technology in psychiatry . Psychiatrike. 2012;23:322-33. However, the quality of health information available on the internet is doubtful, since a great deal of information is incomplete or inadequate.77. Moretti FA, Oliveira VE, Silva EM. Access to health information on the internet: a public health issue? Rev Assoc Med Bras. 2012;58(6):650-8. , 1818. Bernstam EV, Walji MF, Sagaram S, Sagaram D, Johnson CW, Meric-Bernstam F. Commonly cited website quality criteria are not effective at identifying inaccurate online information about breast cancer. Cancer. 2008;112(6):1206-13.
19. Gagliardi A, Jadad AR. Examination of instruments used to rate quality of health information on the internet: chronicle of a voyage with an unclear destination. BMJ. 2002;324(7337):569-73.
20. Grewal P, Williams B, Alagaratnam S, Neffendorf J, Soobrah R. Quality of vascular surgery Web sites on the Internet. J Vasc Surg. 2012;56(5):1461-7. - 2121. Oermann MH. Using health web sites for patient education. J Wound Ostomy Continence Nurs. 2003;30(4):217-23. Following this line of reasoning, it is reasonable to think: What is the status of information available to patients who will be submitted to orthognathic surgery?
It is known that many doubts and uncertainties surround patients who will be submitted to orthognathic surgery. Undoubtedly, post-operative pain is the most prevalent doubt, and is also the main reason for patients giving up this procedure. Nevertheless, how are these patients being informed about post-operative pain? In an endeavor to elucidate this question, the present study assessed the quality of information available on the internet about post-operative pain after orthognathic surgery.
Investigating the quality of this type of information available on the internet is of paramount importance because any person, group of interests, company or institution may publish any kind of information without being subject to peer reviews and without taking into account that many medical questions are difficult to understand and not all levels of education are able to understand information that is available.2222. Patel U, Cobourne MT. Orthodontic extractions and the Internet: quality of online information available to the public. Am J Orthod Dentofacial Orthop. 2011;139(2):e103-9.
A major concern about assessment criteria arose while the present study was being conducted. These criteria included precision, integrity, ease of reading, disclosure and references.2323. Eysenbach G, Powell J, Kuss O, Sa ER. Empirical studies assessing the quality of health information for consumers on the world wide web: a systematic review. JAMA. 2002;287(20):2691-700. , 2424. Griffiths KM, Christensen H. Website quality indicators for consumers. J Med Internet Res. 2005;7(5):e55. , 2525. Kerr C, Murray E, Stevenson F, Gore C, Nazareth I. Internet interventions for long-term conditions: patient and caregiver quality criteria. J Med Internet Res. 2006;8(3):e13. The five main browsers providing access to popular search engines in the world were used,: Google, Bing, Yahoo!, Ask and AOL, which according to up-to-date statistical data, respectively represent 65.9%, 15.1%, 14.5%, 2.9% and 1.6% of most researches conducted in the United States.66. Livas C, Delli K, Ren Y. Quality evaluation of the available Internet information regarding pain during orthodontic treatment. Angle Orthod. 2013;83(3):500-6. , 2626. Search Engine Watch. 2013. Available from: http://www.searchenginewatch.com.
http://www.searchenginewatch.com...
Studies assessing the nature of pain after orthognathic surgery are not commonly found, except for one study that generally analyzed the subject.2727. Aldairy T, Laverick S, McIntyre GT. Orthognathic surgery: is patient information on the Internet valid? Eur J Orthod. 2012;34:466-9. There was considerable divergence in the information found in comparison to scientific evidence, textbooks, primary literature and what is experienced in clinical practice, thereby compromising precision of information. As regards to precision of the websites, 75.88 % discussed two or fewer topics about pain, diverging from the study about pain during orthodontic treatment conducted by Livas et al66. Livas C, Delli K, Ren Y. Quality evaluation of the available Internet information regarding pain during orthodontic treatment. Angle Orthod. 2013;83(3):500-6. in which the percentage was 80%. The mean criteria verification was 1.55, thus indicating that the information found was incomplete.
In writing the texts, the authors did not take into consideration that they should be understandable by all socioeconomic and educational levels, thereby compromising understanding by certain groups.2222. Patel U, Cobourne MT. Orthodontic extractions and the Internet: quality of online information available to the public. Am J Orthod Dentofacial Orthop. 2011;139(2):e103-9. , 2828. Soobrah R, Clark SK. Your patient information website: how good is it? Colorectal Dis. 2012;14:e90-4. The mean FRE for all websites was 53.96, while in the study by Patel and Cobourne2222. Patel U, Cobourne MT. Orthodontic extractions and the Internet: quality of online information available to the public. Am J Orthod Dentofacial Orthop. 2011;139(2):e103-9. the average reading ease scale was 58.3. In the present study, the texts available on the websites were evaluated as being very difficult to read.
One of the assessment tools used was the LIDA instrument which consists of a widely used set of criteria used to assess the value of health material available on the internet. The mean global validation for the 29 websites provided by LIDA instrument was 65.10, thereby indicating medium quality. Accessibility of all websites was considered average. The mean usability of all websites was 53.31, varying among those more and less frequently accessed. Reliability of all websites examined in this study was considered low, given the incomplete sets of information provided.
The continuous development of information on pain after orthognathic surgery available on electronic resources and communities would contribute towards reducing anxiety and providing greater confidence for potential candidates of orthosurgical treatment. What should be done is to create criteria to analyze health information available on the internet, so that after the material has been analyzed, it would have permission to be published for use.
While this does not occur, internet users must be aware of the limitations in seeking counseling on dental procedures online. Additionally, they must allow themselves to be guided by specialists in valid web databases.
CONCLUSION
Based on the results of this study it is reasonable to conclude that:
" The quality of information found in the evaluated websites was considered poor.
" Articles on pain after orthognathic surgery found in websites on the internet are poorly written and not reliable.
" The websites were also considered as divulging incomplete data that demand reading skills of university graduates or undergraduates.
REFERENCES
-
1Cooper CP, Mallon KP, Leadbetter S, Pollack LA, Peipins LA. Cancer Internet search activity on a major search engine, United States 2001-2003. J Med Internet Res. 2005;7(3):e36.
-
2Ressler PK, Bradshaw YS, Gualtieri L, Chui KK. Communicating the experience of chronic pain and illness through blogging. J Med Internet Res. 2012;14(5):e143.
-
3Searching Online for Health Information. 2012 [Cited: 2013 Jul 12]. Available from: http://healthin30.com/2012/12/searching-online-for-health-information.
» http://healthin30.com/2012/12/searching-online-for-health-information -
4Cooley DL, Mancuso AM, Weiss LB, Coren JS. Health-related Internet use among patients of osteopathic physicians. J Am Osteopath Assoc. 2011;111(8):473-82.
-
5Eysenbach G, Kohler C. How do consumers search for and appraise health information on the world wide web? Qualitative study using focus groups, usability tests, and in-depth interviews. BMJ. 2002;324:573-7.
-
6Livas C, Delli K, Ren Y. Quality evaluation of the available Internet information regarding pain during orthodontic treatment. Angle Orthod. 2013;83(3):500-6.
-
7Moretti FA, Oliveira VE, Silva EM. Access to health information on the internet: a public health issue? Rev Assoc Med Bras. 2012;58(6):650-8.
-
8Anhoj J, Jensen AH. Using the internet for life style changes in diet and physical activity: a feasibility study. J Med Internet Res. 2004;6(3):e28.
-
9Walsh AM, Hyde MK, Hamilton K, White KM. Predictive modelling: parents' decision making to use online child health information to increase their understanding and/or diagnose or treat their child's health. BMC Med Inform Decis Mak. 2012;12:144.
-
10Ammenwerth E, Schnell-Inderst P, Hoerbst A. The impact of electronic patient portals on patient care: a systematic review of controlled trials. J Med Internet Res. 2012;14(6):e162.
-
11Chegini S, Johnston KD, Kalantzis A, Dhariwal DK. The effect of anesthetic technique on recovery after orthognathic surgery: a retrospective audit. Anesth Prog. 2012;59(2):69-74.
-
12Phillips C, Blakey G 3rd, Jaskolka M. Recovery after orthognathic surgery: short-term health-related quality of life outcomes. J Oral Maxillofac Surg. 2008;66(10):2110-5.
-
13Dujoncquoy JP, Ferri J, Raoul G, Kleinheinz J. Temporomandibular joint dysfunction and orthognathic surgery: a retrospective study. Head Face Med. 2010 Nov 17;6:27.
-
14Kavin T, Jagadesan AG, Venkataraman SS. Changes in quality of life and impact on patients' perception of esthetics after orthognathic surgery. J Pharm Bioallied Sci. 2012;4:S290-3.
-
15Kim KS, Kim KN, Hwang KG, Park CJ. Capsicum plaster at the Hegu point reduces postoperative analgesic requirement after orthognathic surgery. Anesth Analg. 2009;108(3):992-6.
-
16Murray E, Burns J, See TS, Lai R, Nazareth I. Interactive Health Communication Applications for people with chronic disease. Cochrane Database Syst Rev. 2005 Oct 19;(4):CD004274.
-
17Margariti M, Papadimitriou GN. Use of informatics technology in psychiatry . Psychiatrike. 2012;23:322-33.
-
18Bernstam EV, Walji MF, Sagaram S, Sagaram D, Johnson CW, Meric-Bernstam F. Commonly cited website quality criteria are not effective at identifying inaccurate online information about breast cancer. Cancer. 2008;112(6):1206-13.
-
19Gagliardi A, Jadad AR. Examination of instruments used to rate quality of health information on the internet: chronicle of a voyage with an unclear destination. BMJ. 2002;324(7337):569-73.
-
20Grewal P, Williams B, Alagaratnam S, Neffendorf J, Soobrah R. Quality of vascular surgery Web sites on the Internet. J Vasc Surg. 2012;56(5):1461-7.
-
21Oermann MH. Using health web sites for patient education. J Wound Ostomy Continence Nurs. 2003;30(4):217-23.
-
22Patel U, Cobourne MT. Orthodontic extractions and the Internet: quality of online information available to the public. Am J Orthod Dentofacial Orthop. 2011;139(2):e103-9.
-
23Eysenbach G, Powell J, Kuss O, Sa ER. Empirical studies assessing the quality of health information for consumers on the world wide web: a systematic review. JAMA. 2002;287(20):2691-700.
-
24Griffiths KM, Christensen H. Website quality indicators for consumers. J Med Internet Res. 2005;7(5):e55.
-
25Kerr C, Murray E, Stevenson F, Gore C, Nazareth I. Internet interventions for long-term conditions: patient and caregiver quality criteria. J Med Internet Res. 2006;8(3):e13.
-
26Search Engine Watch. 2013. Available from: http://www.searchenginewatch.com.
» http://www.searchenginewatch.com -
27Aldairy T, Laverick S, McIntyre GT. Orthognathic surgery: is patient information on the Internet valid? Eur J Orthod. 2012;34:466-9.
-
28Soobrah R, Clark SK. Your patient information website: how good is it? Colorectal Dis. 2012;14:e90-4.
-
" The authors report no commercial, proprietary or financial interest in the products or companies described in this article.
Publication Dates
-
Publication in this collection
Dec 2014
History
-
Received
15 Oct 2013 -
Accepted
07 Feb 2014