Year 2021 / Volume 32 / Number 2

Original Papers

Symmetry in podal temperature in diabetic patients and its relationship with the postural index of the foot

Rev. Esp. Pod. 2021; 32(2): 106-115 / DOI: 10.20986/revesppod.2021.1607/2021

Selene Ceprián Moreno, Víctor Manuel Jiménez Cano, Juan Miguel Caracuel López, Alfonso Martínez Nova


ABSTRACT

Objectives: The temperature of the skin of the foot can be a good indicator of the peripheral microcirculation in different areas and be a predictor of possible complications. Thus, with this study we have tried to investigate the differences in temperature that can be reflected in the feet of diabetic patients and see if there is a relationship according to the type of diabetes (type 1 and 2) and the type of foot it has.
Patients and methods: The sample consisted of 52 patients, to whom a thermographic photograph was taken. Nine plantar points were selected (heel, internal arch, external arch, first metatarsal head, third metatarsal head, fifth metatarsal head, first toe, third toe and fifth toe), and the average temperature of these areas was obtained.
Results: The highly pronated foot types presented higher temperature in the area of the internal arch (31.43 °C ± 2.98, p = 0.627) and lower temperature in the supinated foot type in the third toe area (23.37ºC ± 3.84, p = 0.116) on the right foot. In the left foot, the feet had a higher temperature in the area of the internal arch (30.90ºC ± 2.10, p = 0.194) and lower temperature in supinated feet in the area of the first toe (21.19ºC ± 4.83, p = 0.10).
Conclusion: In our study, no asymmetries were found between the zones within the feet of the same patient, nor between diabetic patients of type 1 and 2. This may be due to the fact that they are asymptomatic patients and without associated foot complications. Patients with the type of supinated, neutral or pronated foot present a higher temperature in the area of the internal arch, so it would be advisable to pay special attention in further studies.



RESUMEN

Objetivos: La temperatura de la piel del pie puede ser un buen indicador de la microcirculación periférica en diversas zonas y ser predictor de posibles complicaciones. Este trabajo pretende investigar las diferencias de temperatura que pueden reflejarse en los pies de pacientes diabéticos (tipo 1 y 2) y la relación de esta con el índice postural del pie.
Pacientes y métodos: La muestra se compuso de 52 pacientes diabéticos a los que se realizó una fotografía termográfica. Se seleccionaron nueve puntos plantares (talón, arco interno, arco externo, primera cabeza metatarsal, tercera cabeza metatarsal, quinta cabeza metatarsal, primer dedo, tercer dedo y quinto dedo), y se obtuvo la temperatura media de dichas zonas.
Resultados: Los tipos de pie altamente pronados presentaron mayor temperatura en la zona del arco interno (31.43 °C ± 2.98, p = 0.627) y menor temperatura en los tipos de pies supinados en la zona del tercer dedo (23.37 °C ± 3.84, p = 0.116) en el pie derecho. En el pie izquierdo presentaron mayor temperatura los pies pronados en la zona del arco interno (30.90 °C ± 2.10, p = 0.194) y menor temperatura en pies supinados en la zona del primer dedo (21.19 °C ± 4.83, p = 0.10).
Conclusión: En este estudio no se encontraron asimetrías entre las zonas dentro de los pies del mismo paciente ni tampoco entre pacientes tipo 1 y tipo 2. Esto puede ser debido a que son pacientes asintomáticos y sin complicaciones podológicas. Aquellos pacientes con el tipo de pie supinado, neutro o pronado presentan mayor temperatura en la zona del arco interno, por lo que sería recomendable poner especial atención en posteriores estudios.


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Bibliografía

1. Baran B, Indira L, Centre G, Subramainam B, Gandhi I, Philip J, et al. Medical applications of infrared thermography: A review. Infrared Phys Technol. 2012;55(4):221-35.
2. Astasio Picado A, Escamilla Martínez E, Martínez Nova A, Sánchez Rodríguez R, Gómez–Martín B. Thermal map of the diabetic foot using infrared thermography. Infrared Physics & Technology. 2018;(93):59-62.
3. Rosado RR. Aplicabilidad de la termometría digital por infrarrojos en la valoración vascular del pie. Doctoral dissertation. Sevilla: Universidad de Sevilla; 2009.
4. Netten JJ Van, Baal JG Van, Liu C, Heijden F Van Der, Bus SA. Infrared Thermal Imaging for Automated Detection. Diabetes Sci Technol. 2013;7(5):1122-9.
5. Astasio Picado et al. Comparative thermal map of the foot between patients with and without diabetes through the use of infrared thermography. Enferm Clinica. 2020;30(2):119-23.
6. Peregrina-Barreto H, Renero-Carrillo FJ, Rangel-Magdaleno JJ, Bernal-Gonzalez JA. Estudio de la Distribución de Temperaturas en la Región Plantar de Pacientes con Diabetes Mellitus Utilizando Termografía. Presentado en V Congreso Nacional de Tecnología Aplicada a Ciencias de la Salud; 2014. Disponible en: https://www-optica.inaoep.mx/~tecnologia_salud/2014/1/memorias/Resumenes/MyT2014_09_C.pdf
7. Astasio Picado A, Escamilla Martínez E, Gómez Martín B. Comparison of Thermal Foot Maps between Diabetic Patients with Neuropathic, Vascular, Neurovascular, and No Complications. Current diabetes reviews. 2019;15(6):503-9.
8. Van Netten JJ, van Baal JG, Liu C, van Der Heijden F, Bus SA. Infrared thermal imaging for automated detection of diabetic foot complications. J Diabetes Sci Technol. 2013;7(5):1122-9.
9. Bio MD, Kelly T. Jiménez-Díaz Ing, Andrés C. Correa-Castañeda Ing BioMD, and Julián A. Giraldo-Restrepo Ing BioMD. Protocolo de adquisición de imágenes diagnósticas por termografía infrarroja. Medicina & Laboratorio. 2015;21:161-78.
10. López-Antuñano S, López-Antuñano FJ. Diabetes mellitus y lesiones del pie. Salud pública de México. 1998;40(3):281-92.
11. Redmond AC, Crane YZ, Menz HB. Normative values for the foot posture index. J Foot Ankle Res. 2008;(1)1:6.
12. Nola IA, Kolanć D. Thermography in biomedicine. ELMAR (ELMAR). International Symposium. 2015;17-20.
13. Kistemaker JA, Den Hartog EA DH. Reliability of an infrared forehead skin thermometer for core temperature measurementse. J Med Eng Technol. 2009;30(4):252-61.
14. Bharara M, Viswanathan V, Cobb JE. Cold immersion recovery responses in the diabetic foot with neuropathy. Int Wound J. 2008;5(4):562-9.
15. Benbow SJ, Chan AW, Bowsher DR, Williams G, Macfarlane IA. The prediction of diabetic neuropathic plantar foot ulceration by liquid-crystal contact thermography. Diabetes care. 1994;17(8):835-9.
16. Stess RM, Sisney PC, Moss KM, Graf PM, Louie KS, Gooding GA, et al. Use of liquid crystal thermography in the evaluation of the diabetic foot. Diabetes care. 1986;9(3):267-72.
17. Sánchez AP, Ortiz AE, Alfonso AS, Suárez GR, Muradas MS, Acevedo DF. Salvamento de pie diabético. Acta Ortopédica Mexicana. 2000;14(4):297-301.
18. Chicharro-Luna E, Botana IP, Monreal LR, Ivorra ET. Monitorización de la temperatura del pie como herramienta en la neuropatía diabética. Rev Int Cienc Podol. 2016;10(1):9.
19. Armstrong DG, Holtz-Neiderer K, Wendel C, Mohler MJ, Kimbriel HR, Lavery LA. Skin temperature monitoring reduces the risk for diabetic foot ulceration in high-risk patients. Am J Med. 2007;120(12):1042-6.
20. Boyko EJ, Ahroni JH, Stensel VL. Skin temperature in the neuropathic diabetic foot. J Diabetes Complications. 2001;15(5):260-4.
21. Bagavathiappan S, Philip J, Jayakumar T, Raj B, Rao PNS, Varalakshmi M, et al. Correlation between plantar foot temperature and diabetic neuropathy: a case study by using an infrared thermal imaging technique. J Diabetes Sci Technol. 2010;4(6):1386-92.
22. Lavery LA, Higgins KR, Lancton DR, Constantinides GP, Zamorano RG, Armstrong DG, et al. Home monitoring of foot skin temperatures to prevent ulceration. Diabetes Care. 2004;27(11):2642-7.
23. Bharara M, Cobb JE, Claremont DJ. Thermography and thermometry in the assessment of diabetic neuropathic foot: a case for furthering the role of thermal techniques. Int J Low Extrem Wounds. 2006;5(4):250-60.
24. Murray HJ, Young MJ, Hollis S, Boulton AJ. The association between callus formation, high pressures and neuropathy in diabetic foot ulceration. Diabet Med. 1996;13(11):979-82.
25. Caselli A, Pham H, Giurini J, Armstrong D, Veves A. The forefoot-to-rearfoot plantar pressure ratio is increased in severe diabetic neuropathy and can predict foot ulceration. Diabetes Care. 2002;25(6):1066-71.
26. Pitei DL, Foster A, Edmonds M. The effect of regular callus removal on foot pressures. J Foot Ankle Surg. 1999;38(4):251-5.
27. Estévez RG, Faulí AC, i Blasco CV, Salcedo NC, Fernández HP. Alternativas para la descarga de la úlcera neuropática en el pie diabético. Av Diabetol. 2010;26(6):457-62.
28. Avagnina L. El examen biomecánico mediante plataformas baropodométricas. Rev Int Cienc Podol. 2007;1(1):45.
29. Fernando M, Crowther R, Lazzarini P, Sangla K, Cunningham M, Buttner P, Golledge J. Biomechanical characteristics of peripheral diabetic neuropathy: A systematic review and meta-analysis of findings from the gait cycle, muscle activity and dynamic barefoot plantar pressure. Clin Biomech. 2013;28(8):831-45.

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Instrucciones para citar

Ceprián Moreno S, Jiménez Cano V, Caracuel López J, Martínez Nova A. Symmetry in podal temperature in diabetic patients and its relationship with the postural index of the foot. Rev Esp Pod 2021; 32(2): 106-115 / DOI: 1020986/revesppod20211607/2021


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Recibido: 25/05/2021

Aceptado: 17/06/2021

Prepublicado: 15/10/2021

Publicado: 28/12/2021

Tiempo de revisión del artículo: 21 días

Tiempo de prepublicación: 143 días

Tiempo de edición del artículo: 217 días


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2024 Revista Española de Podología
ISSN: 0210-1238   e-ISSN: 2695-463X

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