Journal Information
Vol. 16. Issue 4.
Pages 344-353 (July - August 2002)
Vol. 16. Issue 4.
Pages 344-353 (July - August 2002)
Open Access
Discordancias entre los estudios de ámbitos hospitalario y comunitario cuando evalúan la misma pregunta de investigación
(Disagreement among hospital and community studies evaluating the same research question)
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M. Delgado Rodríguez
Corresponding author
mdelgado@ujaen.es

Correspondencia: Dr. Miguel Delgado Rodríguez. Cátedra de Medicina Preventiva. Universidad de Jaén. Edificio B-3. 23071 Jaén.
Universidad de Jaén
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Resumen

Se abordan las razones que motivan que los resultados de la investigación realizada sobre poblaciones hospitalarias en ocasiones no sea consistente con la practicada en la comunidad. En la base de las diferencias se encuentran el proceso de selección de los pacientes y la recogida de datos por la historia clínica (su falta de uniformidad y el tratamiento de los «no consta»). Se estructura la razón de las discrepancias en función del tipo de pregunta de investigación: frecuencia, diagnóstico, etiología, pronóstico y tratamiento-prevención. Es el proceso de selección el que justifica las diferencias en frecuencia y pronóstico. En relación con el diagnóstico, las discrepancias se deben a la prevalencia de la enfermedad. En el estudio de asociaciones de causalidad ciertos errores son más frecuentes en los estudios hospitalarios, como los sesgos de detección, protopático (ambos exageran la asociación), y el de inclusión (reduce la asociación). Se analizan ejemplos publicados de cada una de ellas. En relación con el tratamientoprevención, los problemas son sobre todo de validez externa, ya que la metodología del ensayo clínico previene las amenazas a la validez interna; se analiza con un ejemplo de valoración de la eficacia vacunal en pacientes y población sana. La frecuencia de citación de los sesgos se midió en una búsqueda en Medline; en los estudios hospitalarios se mencionó con más frecuencia el sesgo de detección ([RR] = 2,71; intervalo de confianza [IC] del 95%, 1,69-4,37) y el sesgo de confusión por indicación (RR = 1,76; IC del 95%, 0,90-3,42). Por último, se da una serie de recomendaciones destinadas a aumentar la validez de los estudios realizados en el medio hospitalario.

Palabras clave:
Estudios hospitalarios
Estudios comunitarios
Sesgos
Concordancia
Abstract

The goal of this review is to delineate some of reasons that justify the lack of consistency between hospital-based and community research. The main reasons for the differences are the selection of the hospital population and information based on clinical chart (its lack of uniformity and the treatment of the «not available» data). The reasons for lack of consistency are divided according to the type of research question: frequency, diagnosis, etiology, prognosis and treatment-prevention. The way a hospital population is selected justifies discrepancies regarding frequency and prognosis. As regards diagnosis, differences are mainly due the prevalence of disease. In the ascertainment of causality several biases are more common in hospital-based research, such as detection bias, protopathic (both producing an away-from-null estimate), and inclusion bias (diminishing the strength of association). Examples taken from the medical literature are offered to illustrate each bias. Regarding treatment-prevention problems arise from external validity, as clinical trials are less prone to bias; this latter situation is exemplified with an assessment of vaccine efficacy in both patients and healthy population. The frequency of citation of bias was assessed by a Medline search; in hospital studies detection bias and confounding by indication were more often quoted than in non-hospital research (RR = 2.71; 95% CI; 1.69-4.37; RR = 1.76; 95% CI, 0,90-3,42, respectively). Lastly, several recommendations are given to increase the validity of hospital-based research.

Key words:
Hospital studies
Community studies
Bias
Agreement
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Bibliogrífia
[1.]
A.B. Hill.
The environment and disease: association or causation?.
Proc Royal Soc Med, 58 (1965), pp. 295-306
[2.]
J. Berkson.
Limitations of the application of fourfold table analysis to hospital data.
Biomet Bull, 2 (1946), pp. 47-53
[3.]
A.R. Feinstein, S.D. Walter, R.I. Horwitz.
An analysis of Berkson's bias in case-control studies.
J Chron Dis, 39 (1986), pp. 495-504
[4.]
W.D. Flanders, C.A. Boyle, J.R. Boring.
Bias associated with differential hospitalization rates in incident case-control studies.
J Clin Epidemiol, 42 (1989), pp. 395-401
[5.]
R.S. Robert, W.O. Spitzer, T. Delmore, D.L. Sackett.
An empirical demonstration of Berkson's bias.
J Chron Dis, 31 (1978), pp. 119-128
[6.]
S.D. Walter.
Berkson's bias and its control in epidemiologic studies.
J Chron Dis, 33 (1980), pp. 721-725
[7.]
M. Delgado Rodríguez.
Sesgos en el estudio de factores pronósticos.
Med Clin (Barc), 112 (1999), pp. 51-58
[8.]
R.I. Horwitz, K.R. Stewart.
Effect of clinical features on the association of estrogens and breast cancer.
Am J Med, 76 (1984), pp. 192-198
[9.]
P.S. Romano, L.L. Roos, H.S. Luft, J.G. Jollis, K. Doliszny.
and the Ischemic Heart Disase Patient Outcomes Research Team. A comparison of administrative versus clinical data: coronary artery bypass surgery as an example.
J Clin Epidemiol, 47 (1994), pp. 249-260
[10.]
M. Delgado-Rodríguez, M. Gómez-Olmedo, A. Bueno-Cavanillas, M. García-Martín, R. Gálvez-Vargas.
Recall bias in a casecontrol study of low birth weight.
J Clin Epidemiol, 48 (1995), pp. 1133-1140
[11.]
D.L. Sackett.
Bias in analytic research.
J Chron Dis, 32 (1979), pp. 51-63
[12.]
Designing clinical research: an epidemiologic approach,
[13.]
B.S. Schoenberg, D.W. Anderson, A.F. Haerer.
Prevalence of Parkinsonšfs disease in the biracial population of Copiah Country, Mississippi.
Neurology, 35 (1985), pp. 841-845
[14.]
A.R. Feinstein.
Clinical epidemiology. The architecture of clinical research.
[15.]
H. Brenner, O. Gefeller.
Variation of sensitivity, specificity, likelihood ratios and predictive values with disease prevalence.
Stat Med, 16 (1997), pp. 981-991
[16.]
K. Rothman.
Causes.
Am J Epidemiol, 104 (1976), pp. 587-592
[17.]
H. Morgenstern, W. Glazer, D. Niedwiecki, P. Nourjah.
The impact of neuroleptic medication on tardive dyskinesia: a meta-analysis of published studies.
Am J Public Health, 77 (1987), pp. 717-724
[18.]
E. Bernal-Delgado, J. Latour-Perez, F. Pradas-Arnal, L.I. Gomez-Lopez.
The association between vasectomy and prostate cancer: a systematic review of the literature.
Fertil Steril, 70 (1998), pp. 191-200
[19.]
E. Giovannucci, G.A. Colditz, M.J. Stampfer.
A meta-analysis of cholecystectomy and risk of colorectal cancer.
Gastroenterology, 105 (1993), pp. 130-141
[20.]
J.-Q. Huang, S. Sridhar, Y. Chen, R.H. Hunt.
Meta-analysis of the relationship between Helicobacter pylori seropositivity and gastric cancer.
Gastroenterology, 114 (1998), pp. 1169-1179
[21.]
M. Salas, A. Hofman, B.H. Stricker.
Confounding by indication: an example of variation in the use of epidemiologic terminology.
Am J Epidemiol, 149 (1999), pp. 981-983
[22.]
C. Thijs, P. Knipschild, P. Leffers.
Does alcohol protect against the formation of gallstones? A demonstration of protopathic bias.
J Clin Epidemiol, 44 (1991), pp. 941-946
[23.]
L. Blais, P. Ernst, S. Suissa.
Confounding by indication and channeling over time: the risks of β2-agonists.
Am J Epidemiol, 144 (1997), pp. 1161-1169
[24.]
A.G. Johnson, S.S. Jick, D.R. Perera, H. Jick.
Histamine-2 receptor antagonists and gastric cancer.
Epidemiology, 7 (1996), pp. 434-436
[25.]
C.R. Weinberg, D.D. Baird, A. Wilcox.
Sources of bias in studies of time to pregnancy.
Stat Med, 13 (1994), pp. 671-681
[26.]
Dl Sackett, G. Whelan.
Cancer risk in ulcerative colitis: scientific requirements for the study of prognosis.
Gastroenterology, 78 (1980), pp. 1632-1635
[27.]
M.J. Fine, M.A. Smith, C.A. Carson, F. Meffe, S.S. Sankey, L.A. Weissfeld, et al.
Efficacy of pneumococcal vaccination in adults.
Arch Intern Med, 154 (1994), pp. 2666-2677
[28.]
M. Delgado-Rodriguez, M. Sillero-Arenas, J.M. Matin-Moreno, R. Galvez Vargas.
Oral contraceptives and cancer of the cervix uteri. A meta-analysis.
Acta Obstet Gynecol Scand, 71 (1992), pp. 368-376
[29.]
K.K. Steinberg, S.J. Smith, S.B. Thacker, D.F. Stroup.
Breast cancer risk and duration of estrogen use: the role of study design in meta-analysis.
Epidemiology, 5 (1994), pp. 415-421
[30.]
S.S. Coughlin, A. Giustozzi, S.J. Smith, N.C. Lee.
A meta-analysis of estrogen replacement therapy and risk of epithelial ovarian cancer.
J Clin Epidemiol, 53 (2000), pp. 367-375
[31.]
Y. Ben-Shlomo, H. Markowe, M. Shipley, M.G. Marmot.
Stroke risk from alcohol consumption using different groups.
Stroke, 23 (1992), pp. 1093-1098
[32.]
T. Lasky, P.D. Stolley.
Selection of cases and controls.
Epidemiol Rev, 16 (1994), pp. 6-17
[33.]
M. Dosemeci, S. Wacholder, J.H. Lubin.
Does nondifferential misclassification of exposure always bias a true effect toward the null value.
Am J Epidemiol, 132 (1990), pp. 746-748
[34.]
M. Delgado Rodriguez.
Unidad Didactica 1. Investigacion Cientifica.
Diseno de estudios sanitarios, pp. 1-126
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