GENDER-BASED HEMATOLOGICAL VARIATIONS IN DENGUE FEVER: EVIDENCE FROM A TERTIARY HEALTHCARE SETTING IN PESHAWAR, PAKISTAN

Main Article Content

Zarak Khan
Noor Asad
Muhammad Saud Sadiq
Hamza Khan
Muhammad Uzair
Muhammad Shamoon Khan
Muhammad Ayaz
Salman Zahir
Khansa Khan
Somia Mazhar
Jamal Shah

Keywords

Dengue Fever, Hematological Parameters, Thrombocytopenia, NS1 Antigen

Abstract

Background: Dengue Fever, a prevalent mosquito-borne disease, particularly impacts tropical and subtropical regions, posing significant public health challenges. Despite its prevalence, gender-specific hematological changes in dengue fever remain understudied, particularly within specific healthcare settings such as Peshawar, Pakistan.


Objective: The study aims to assess the hematological parameters, their gender-based variations, and the prevalence of serological markers among dengue fever patients presenting at a tertiary care setting in Hayatabad, Peshawar, Pakistan.


Materials and Methods: A single-center, descriptive, observational study utilized retrospective data from a private tertiary care hospital in Peshawar, Pakistan. A convenience sample of 101 patients meeting WHO criteria for suspected dengue fever between September and November 2022 was included. Data extraction from electronic health records covered demographics, serology, and hematological parameters. Statistical analysis involved means, standard deviations, frequencies, and percentages using SPSS 26.0.


Results: Predominantly, young males constituted the dengue patient cohort, with NS1 antigen positivity (94.06%) and thrombocytopenia (40.59%) as common serological markers. Male and female hematological profiles exhibited notable variations, including reductions in red blood cell count (11%), hematocrit (26%), hemoglobin levels (13%), and mean corpuscular volume (43%). Thrombocytopenia was prevalent (93%), with lymphocytopenia (20%) and neutrophilia (13%) observed in some cases.


Conclusion: The investigation highlights the predominant occurrence of dengue fever among young males, with NS1 antigen positivity serving as a prevalent serological indicator. Furthermore, thrombocytopenia emerges as the foremost hematological aberration observed in the studied population.

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References

1. Trivedi S, Chakravarty A. Neurological complications of dengue fever. Curr Neurol Neurosci Rep. 2022 Aug;22(8):515-29.
2. Umakanth M, Suganthan N. Unusual manifestations of dengue fever: a review on expanded dengue syndrome. Cureus. 2020 Sep 27;12(9).
3. Polwiang S. The time series seasonal patterns of dengue fever and associated weather variables in Bangkok (2003-2017). BMC Infect Dis. 2020 Dec;20(1):1-0.
4. Umar M, Sabir Z, Raja MA, Sánchez YG. A stochastic numerical computing heuristic of SIR nonlinear model based on dengue fever. Results Phys. 2020 Dec 1;19:103585.
5. Farinelli EC, Baquero OS, Stephan C, Chiaravalloti-Neto F. Low socioeconomic condition and the risk of dengue fever: a direct relationship. Acta Trop. 2018 Apr 1;180:47-57.
6. Kulkarni R, Pujari S, Gupta D. Neurological manifestations of dengue fever. Ann Indian Acad Neurol. 2021 Sep;24(5):693.
7. Li GH, Ning ZJ, Liu YM, Li XH. Neurological manifestations of dengue infection. Front Cell Infect Microbiol. 2017 Oct 25;7:449.
8. Arshad R, Rhouati A, Hayat A, Nawaz MH, Yameen MA, Mujahid A, Latif U. MIP-based impedimetric sensor for detecting dengue fever biomarker. Appl Biochem Biotechnol. 2020 Aug;191:1384-94.
9. Ferede G, Tiruneh M, Abate E, Wondimeneh Y, Gadisa E, Howe R, Aseffa A, Tessema B. A study of clinical, hematological, and biochemical profiles of patients with dengue viral infections in Northwest Ethiopia: implications for patient management. BMC Infect Dis. 2018 Dec;18:616.
10. Yousaf MZ, Siddique A, Ashfaq UA, Ali M. Scenario of dengue infection & its control in Pakistan: An up—date and way forward. Asian Pac J Trop Med. 2018 Jan 1;11(1):15-23.
11. Dengue and severe dengue. Who.int. Available from: https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue
12. Khan U, Azeem S. The rising toll of dengue cases in Pakistan every year: An incipient crisis. Ann Med Surg (Lond). 2022 Apr;76.
13. Kotepui M, PhunPhuech B, Phiwklam N, Uthaisar K. Differentiating between dengue fever and malaria using hematological parameters in endemic areas of Thailand. Infect Dis Poverty. 2017 Apr 5;6(02):29-37.
14. Kadadavar SS, Lokapur V, Nadig D, Prabhu M, Masur D. Hematological parameters in dengue fever: A study in tertiary care hospital. Indian J Pathol Oncol. 2020;7(2):218-22.
15. Kain D, Jechel DA, Melvin RG, Jazuli F, Klowak M, Mah J, Omidi A, Kariyawasam R, Klowak S, Boggild AK. Hematologic parameters of acute dengue fever versus other febrile illnesses in ambulatory returned travelers. Curr Infect Dis Rep. 2021 Dec;23(12):25.
16. Babuji A, Inamdar SS. Haematological profile of Dengue Fever. Medica. 2020 Jan;9(1):17.
17. Khatroth S. A Study on Clinical and Hematological Profile of Dengue Fever in a Tertiary Care Hospital. Int Arch Integr Med. 2017 Aug 1;4:96-102.
18. Tiwari K, Ahmad S, Irfan S, Srivastava A, Parveen H. A study of the alteration in hematological parameters and liver function test with respect to the severity of dengue fever. Asian J Med Sci. 2021 Mar 1;12(3):93-7.
19. Bano N, Tayyab M, Muneer B, Firyal S, Hashmi AS, Wasim M, Awan AR. Clinical, hematological and biochemical manifestations among dengue patients of Lahore region. Pak J Zool. 2022:1-8.
20. Ferede G, Tiruneh M, Abate E, et al. A study of clinical, hematological, and biochemical profiles of patients with dengue viral infections in Northwest Ethiopia: implications for patient management. BMC Infect Dis. 2018 Dec;18:616.

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