Body Heat Storage and Entropy in Sickle Cell Anaemia

Autori

  • S. I. Ogungbemi Department of Physiology, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore
  • A. P. Arikawe Department of Physiology, College of Medicine of the University of Lagos, Surulere, Lagos, Nigeria Autore
  • W. A Saka Department of Physiology, College of Health Sciences, Ladoke Akintola University, Ogbomoso, Osun State, Nigeria. Autore
  • K. O. Tijani Department of Physiology, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore
  • C. P. Umeh Department of Physiology, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore
  • M. A.  Aweda Department of Radiation Biology, Radiotherapy, Radiodiagnosis and Radiography, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore
  • C. N. Anigbogu Department of Physiology, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore
  • I. I.  Olatunji-Bello Department of Physiology, Lagos State University College of Medicine, Ikeja, Lagos State, Nigeria. Autore
  • M. O.  Kehinde Department of Medicine, College of Medicine, University of Lagos, P.M.B. 12003, Lagos, Nigeria. Autore

Parole chiave:

Sickle cell anaemia, metabolic heat production, heat loss, heat storage, entropy change

Abstract

Background: Sickle cell anaemia patients (SCAP) exhibit a higher basal metabolic rate (BMR) compared to non-sickle cell counterparts (NSCP), attributed to increased cardiac workload and erythropoietic activity.
Objectives: This study compared oxygen consumption rate (VO₂), metabolic heat production (M), BMR, resting energy expenditure (REEp), heat losses (radiation, convection, evaporation, respiration), and estimated changes in heat storage (ΔH) and entropy (ΔS) in SCAP and NSCP.
Methods: Forty-two adult males (21 SCAP, 21 NSCP) were studied. Physical and blood pressure parameters, arterial oxygen saturation (SPO₂), skin temperature (Tsk), and VO₂ were measured. Haematological, oxidative stress (malondialdehyde), and thyroid hormone (triiodothyronine) levels were analyzed.
Results: SCAP showed lower haemoglobin, SPO₂, and triiodothyronine but higher white blood cell count, oxidative stress, heart rate, and skin temperature. VO₂, M, BMR, REEp, ΔH, and ΔS were significantly elevated in SCAP (p < 0.05–0.001). Heat losses via radiation, convection, and respiration were also higher in SCAP. ΔH correlated positively with cardiovascular and oxidative stress markers and negatively with haemoglobin and SPO₂.
Conclusion: SCAP exhibit higher ΔH, ΔS, and metabolic rates due to cardiovascular, haematological, and metabolic compensations. These findings highlight the energy-costly nature of sickle cell anaemia and its impact on thermoregulation.

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Pubblicato

2025-08-03

Fascicolo

V. 3 N. 1 (2020)

Sezione

Articles

Licenza

Copyright (c) 2020 Journal of Health Sciences

Creative Commons License

Questo volume è pubblicato con la licenza Creative Commons Attribuzione - Non commerciale - Non opere derivate 4.0 Internazionale.

Come citare

Body Heat Storage and Entropy in Sickle Cell Anaemia. (2025). Journal of Health Sciences, 3(1), 50-60. https://lasujournals.ng/index.php/jhs/article/view/79

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