BACKGROUND: One type of thalassemia known as transfusion-dependent thalassemia (TDT) requires a lifelong blood transfusion. Iron overload from prolonged blood transfusions causes nutritional disorders and several organs impairment, including the testicles. In contrast to an orchidometer, ultrasound shows more details of the testicles. This study aimed to compare testicular volumes based on ultrasound and orchidometer measurements and correlate testicular volume with nutritional status in TDT patients.

METHODS: A cross-sectional study including 27 male thalassemia subjects who underwent routine check-ups was conducted. Measurements of testicular volume using an orchidometer and ultrasound, and body mass index (BMI) was performed. Ultrasound measurement of testicular volume was calculated using the Lambert Formula, while the orchidometer was performed by matching the bead next to the testicle.

RESULTS: Most subjects were underweight (63%) or normal weight (37%). However, no significant correlation between BMI and testicular volume was found. As measured using an orchidometer, the mean volume of the right and left testes were 9.22±4.92 mL and 8.67±4.45 mL, respectively. Ultrasound measurement showed the mean values of the right and left testicles were 7.68±3.96 mL and 7.09±4.03 mL, respectively. Testicular measurements obtained using ultrasound showed a significant difference (p<0.05) when compared with the orchidometer. The testicle measured by ultrasound was smaller, which was more accurate. However, the comparison between the right and the left testicular volumes showed no significance.

CONCLUSION: Thalassemia patients are mainly underweight, and their nutritional status have no relationship with testicular volume. Ultrasound, as compared to an orchidometer, is better for measuring testicular volume.

KEYWORDS: thalassemia, testicle, orchidometer, ultrasound, body mass index

Viprakasit V, Origa R. Genetics basis, pathophysiology and diagnosis. In: Domenica CM, Alan C, John P, Ali T, Vip V, eds. Guidelines for The Management of Transfusion Dependent Thalassemia. 3rd ed. Strovolos: Thalassemia International Federation; 2014. p.14-26, NLMID.

Cao A, Galanello R. Beta-thalassemia. Genet Med. 2010; 12(2): 61-76, CrossRef.

Sahiratmadja E, Maskoen AM, Reniarti L, Prihatni D. Erythrocyte indices MCV and/or MCH as first round screening followed by Hb-analysis for B-thalassemia carrier state. Indones Biomed J. 2022; 14(3): 282-88, CrossRef.

Handayani NSN, Husna N, Rahmil G, Ghifari RA, Widyawati L, Lesmana I. Splice-site and frameshift mutations of B-globin gene found in thalassemia carrier screening in Yogyakarta Special Region, Indonesia. Indones Biomed J. 2021; 13(1): 55-60, CrossRef.

Siregar OR, Siregar RS, Lubis B. Renal function in children with B-thalassemia major treated with iron chelating agent. Indones Biomed J. 2020; 12(3): 214-9,

Yousefian S, Aliabad GM, Saleh R, Khedmati M. Association of body mass index and serum ferritin level in pediatrics with beta-thalassemia major disease. Iran J Ped Hematol Oncol. 2022; 12(1): 34-40, CrossRef.

Srisukh S, Ongphiphadhanakul B, Bunnag P. Hypogonadism in thalassemia major patients. J Clin Transl Endocrinol. 2016; 5: 42-5, CrossRef.

De Sanctis V, Soliman AT, Yassin MA, Di Maio S, Daar S, Elsedfy H, et al. Hypogonadism in male thalassemia major patients: pathophysiology, diagnosis, and treatment. Acta Biomed. 2018; 89(2-S): 6-15, CrossRef.

De P, Mistry R, Wright C, Pancham S, Burbridge W, Gangopadhayay K, et al. A review of endocrine disorders in thalassaemia. Open J Endocr Metab Dis. 2014; 4(2): 25-34, CrossRef.

Singh P, Seth A. Growth and endocrine issues in children with thalassemia. Ped Hematol Oncol J. 2017; 2(4): 98-106, CrossRef.

Cannarella R, Caruso M, Crafa A, Timpanaro TA, Lo Bianco M, Presti S, et al. Testicular growth and pubertal onset in GH-deficient children treated with growth hormone: a retrospective study. Front Endocrinol. 2021; 12: 619895, CrossRef.

Kühn AL, Scortegagna E, Nowitzki KM, Kim YH. Ultrasonography of the scrotum in adults. Ultrasonography. 2016; 35(3): 180-97, CrossRef.

Isidori AM, Lenzi A. Ultrasound of the Testis for the Andrologist Morphological and Functional Atlas. Cham: Springer International Publishing; 2017, CrossRef.

Walsh TJ, Smith JF. Male infertility. In: McAninch JW, Lue TF, eds.Smith & Tanagho’s General Urology. 19th ed. New York: McGraw-Hill Education; 2020. p.710, article.

Anyanwu LJC, Sowande OA, Asaleye CM, Saleh MK, Mohammad AM, Onuwaje M, et al. Testicular volume: correlation of ultrasonography, orchidometer and caliper measurements in children. African J Urol. 2020; 26(1): 6, CrossRef.

Lin CC, Huang WJS, Chen KK. Measurement of testicular volume in smaller testes: How accurate is the conventional orchidometer? J Androl. 2009; 30(6): 685-9, CrossRef.

Yang H, Chryssikos T, Houseni M, Alzeair S, Sansovini M, Iruvuri S, et al. The effects of aging on testicular volume and glucose metabolism: an investigation with ultrasonography and FDG-PET. Mol Imaging Biol. 2011; 13(2): 391-8, CrossRef.

Centers for Disease Control and Prevention [Internet]. Body Mass Index: Considerations for Practitioners [cited 2022 Jun 18]. https://www.cdc.gov/.

Paltiel HJ, Diamond DA, di Canzio J, Zurakowski D, Borer JG, Atala A. Testicular volume: comparison of orchidometer and US measurements in dogs. Radiol. 2002; 222(1): 114-9, CrossRef.

Biswas B, Naskar NN, Basu K, Dasgupta A, Basu R, Paul B. Malnutrition, its attributes, and impact on quality of life: an epidemiological study among β-thalassemia major children. Korean J Fam Med. 2021; 42(1): 66-72, CrossRef.

Takihara H, Sakatoku J, Fujii M, Nasu T, Cosentino MJ, Cockett ATK. Significance of testicular size measurement in andrology. I. A new orchidometer and its clinical application. Fertil Steril. 1983; 39(6): 836-40, CrossRef.

Bahk JY, Jung JH, Jin LM, Min SK. Cut-off value of testes volume in young adults and correlation among testes volume, body mass index, hormonal level, and seminal profiles. Urology. 2010; 75(6): 1318-23, CrossRef.

Shahla A, Mohammad Mahdi A, Azadeh K, Azita A. Testicular ultrasound assessment in thalassemic men. Imaging J Clin Med Sci. 2016; 3(1): 20-3, CrossRef.

Nguyen Hoai B, Hoang L, Tran D, Nguyen Cao T, Doan Tien L, Sansone A, et al. Ultrasonic testicular size of 24,440 adult Vietnamese men and the correlation with age and hormonal profiles. Andrologia. 2022; 54(2): e14333, CrossRef.

Neelakandan A, Pithcai A, Arulraj E. Assessment of variations in testicular volumes among healthy adults using ultrasonography. EAS J Radiol Imaging Technol. 2021; 3(6): 325-9, article.

Diamond DA, Paltiel HJ, DiCanzio J, Zurakowski D, Bauer SB, Atala A, et al. Comparative assessment of pediatric testicular volume: orchidometer versus ultrasound. J Urol. 2000; 164(3 Pt 2): 1111-4, CrossRef.

Shiraishi K, Takihara H, Kamiryo Y, Naito K. Usefulness and limitation of punched-out orchidometer in testicular volume measurement. Asian J Androl. 2005; 7(1): 77-80, CrossRef.

Ansari S, Kiumarsi A, Azarkeivan A, Allameh MM, Kashani DA, Azar MR. Fertility assessment in thalassemic men. Thalass Rep. 2017; 7(1): 21-4, CrossRef.