https://orcid.org/0000-0001-9350-0239
Abstract
Purpose
This study aims to delineate the demographic and clinical characteristics of xerosis, pruritus, and pallor among patients with stage 5 chronic kidney disease (CKD) undergoing hemodialysis at Dr. Hasan Sadikin General Hospital, Bandung.
Patients and Methods
This cross-sectional, descriptive study involved the analysis of 139 selected medical records of patients with stage 5 CKD who underwent hemodialysis between July and August 2022. A comprehensive examination was conducted by a dermatovenereologist, and the findings were duly recorded in the patients’ medical records. The documentation encompassed gender, age, employment status, as well as the clinical characteristics of xerosis, pruritus, and pallor. The collected data were analyzed using descriptive statistical methods.
Results
Out of the 139 patients, 70 (50.4%) were male, while 69 (49.6%) were female. The mean (SD) age was 47.6 (11.8) years. The majority of the patients were unemployed (n=96, 69.1%). The median (IQR) duration of hemodialysis was 48 (96.0–24.0) months. The predominant findings were xerosis (n=84, 60.4%) and pallor (n=83, 59.7%), followed by pruritus (n=56, 40.3%). Instances of xerosis were more frequently observed in males, whereas pallor was more prevalent in females. Xerosis and pruritus exhibited higher prevalence in the ≥65 years age group, whereas pallor was more common in the 18–44 years age group. In contrast to xerosis, pruritus and pallor were more frequently noted in the unemployed group. Xerosis was predominantly mild with overall dry skin (ODS) score of one, and it was mainly observed on the patients’ legs. Among those experiencing pruritus, over half displayed a moderate severity with visual analogue scale (VAS) scores ranging from ≥3 to <7. Patients with pallor mostly exhibited hemoglobin levels below 10 g/dL.
Conclusion
Xerosis, pruritus, and pallor were prevalent among patients with stage 5 CKD undergoing hemodialysis. These disorders presented with distinct demographic and clinical characteristics. Timely diagnosis and intervention have the potential to enhance the quality of life for these patients.
Introduction
Chronic kidney disease (CKD) can be defined as a persistent decline in kidney function resulting from prolonged injury to the kidney parenchyma. It represents a significant global health concern and ranks among the top 20 causes of death worldwide.Citation1 The burden of CKD is projected to steadily increase on a global scale, primarily due to the escalating prevalence of its leading contributor, diabetes. This surge in burden is expected to be most pronounced in Asia. Approximately 434.3 million adults across Eastern, Southern, and South-Eastern Asia are affected by CKD.Citation2 Within Indonesia, according to data from the Basic Health Research (Riskesdas) in 2018, there was a 1.8% rise in CKD prevalence per thousand individuals aged 15 years and older, compared to data recorded in 2013. Among the 34 provinces under study, West Java displayed the 8th highest CKD prevalence.Citation3
CKD is classified into five stages based on the glomerular filtration rate (GFR). The fifth stage, characterized by a GFR <15 mL/min/1.73m2, is also referred to as end-stage renal disease (ESRD).Citation4 At this stage, permanent kidney failure occurs, and without kidney replacement therapy (KRT), it can be fatal.Citation5 Dialysis stands as the primary KRT modality in many nations, with hemodialysis being the most widely employed method.Citation6,Citation7 In 2018, 98% of stage 5 CKD patients in Indonesia underwent hemodialysis as their routine dialysis treatment. It is noteworthy that the number of of new hemodialysis patients doubled compared to the previous year, with 14,796 (22.27%) of the 66,433 new hemodialysis patients originating from West Java.Citation8
Symptoms in the early stages of CKD are typically absent, becoming noticeable as patients reach stages 4 or 5.Citation9 As the disease progresses and kidney function deteriorates, there is a buildup of uremic retention solutes, with those eliciting biological effects termed uremic toxins. This gives rise to uremic syndrome, which represents the clinical manifestation of the impacts exerted by uremic solutes on nearly all organ systems.Citation10–12 Various organ systems affected include the cardiovascular, endocrine, gastrointestinal, neurological, and dermatological systems.Citation12
A range of cutaneous disorders can be found in CKD patients, particularly those undergoing hemodialysis.Citation13 The prevalence of these skin disorders often increases with the duration and severity of kidney disease.Citation14 These manifestations can occur before or after the initiation of hemodialysis.Citation15,Citation16 However, the likelihood of encountering new skin conditions is greater in hemodialysis patients,Citation16 attributable to their extended life expectancy due to the benefits of hemodialysis, affording more time for the development of novel skin disorders. Studies highlight a heightened prevalence of skin disorders in hemodialysis patients.Citation17 Several investigations have identified the presence of at least one skin disorder in patients undergoing hemodialysis.Citation18–20
Skin disorders among CKD patients undergoing dialysis can be categorized into specific and nonspecific conditions. Acquired perforating dermatosis, calcific uremic arteriolopathy, bullous diseases, and nephrogenic fibrosing dermopathy fall under the category of specific skin disorders. Nonspecific disorders include pruritus, xerosis, pallor, pigmentary changes, purpura, nail disorders, hair disorders, oral disorders, and uremic frost.Citation19 Xerosis, pruritus, and pallor have exhibited high prevalence in certain studies.Citation5,Citation15,Citation21 Aggarwal et alCitation22 also discovered a significant increase in the occurrence of these skin disorders from stage 2 CKD to stage 5 CKD with hemodialysis. Pruritus in CKD is linked to sleep disturbances and impaired quality of life.Citation23 Xerosis leads to discomfort, significantly impacting psychosocial well-being, and moderately to severely affecting quality of life.Citation24 However, both conditions are often inadequately treated in hemodialysis patients.Citation25 Conversely, pronounced pallor can serve as an indicator of severe anemia.Citation26 In CKD patients, anemia is associated with lower quality of life and increased morbidity and mortality.Citation27
The escalating number of CKD cases in Indonesia could potentially lead to an increase in its manifestations, including skin disorders that are notably common in stage 5 CKD patients undergoing hemodialysis. Xerosis, pruritus, and pallor are frequently reported and are also correlated with impaired quality of life. In 2018, West Java significantly contributed to the rise in CKD prevalence and the number of new hemodialysis patients. Despite being the city with the highest population density in the West Java province,Citation28 research on the characteristics of these three skin disorders in Bandung remains limited. Thus, the objective of this study is to delineate the characteristics of xerosis, pruritus, and pallor among stage 5 CKD patients undergoing hemodialysis at Dr. Hasan Sadikin General Hospital, Bandung.
Materials and Methods
Study Design
This descriptive study employed a cross-sectional design and was conducted at the Medical Record Unit of Dr. Hasan Sadikin General Hospital, Bandung, from October to December 2022. The study aimed to provide a descriptive account of the demographic and clinical attributes of xerosis, pruritus, and pallor in stage 5 CKD patients undergoing hemodialysis. Secondary data sourced from patients’ medical records constituted the basis for this descriptive depiction.
Study Population
The data were extracted from medical records of stage 5 CKD patients undergoing hemodialysis, encompassing information derived from history-taking and physical examinations conducted by a dermatovenereologist. These examinations were carried out at the Hemodialysis Unit of Dr. Hasan Sadikin General Hospital, Bandung, from July to August 2022. Inclusion criteria encompassed medical records of patients aged ≥18 years who underwent hemodialysis at least twice weekly for a minimum of three months between July and August 2022. Excluded were medical records that were either inaccessible, incomplete, or pertaining to patients with a history of kidney transplant, positive human immunodeficiency virus-acquired immunodeficiency syndrome (HIV-AIDS), or other skin disorders. The sample size for this study was determined through total sampling.
Study Variables
This study described the demographic and clinical characteristics of pruritus, and pallor. Demographic variables included gender, age, employment status, and hemodialysis duration. Clinical characteristics differed for each skin disorder. Xerosis was graded based on overall dry skin (ODS) score. Lesion locations were categorized as chest, back, forearm, and legs, determining localized or generalized xerosis. Pruritus severity was assessed using the visual analogue scale (VAS). Pallor was objectively assessed through hemoglobin levels categorized as <10 g/dL and ≥10 g/dL.
The overall dry skin (ODS) score, developed by the European Group on Efficacy Measurement of Cosmetics and other Topical Products (EEMCO), is a scoring method evaluating all major and minor signs of xerosis or ichthyosis. Scores range from 0 (indicating absence of xerosis) to 4 (indicating extensive scales, notable roughness, presence of redness, eczematous changes, and cracks).Citation29 In this study, each score was utilized to represent the extent of xerosis, ranging from mild to very severe.
The Visual analogue scale (VAS) is one of the unidimensional scales employed to subjectively measure the intensity of pruritus. Other available unidimensional scales include the numerical rating scale (NRS) and verbal rating scale (VRS). A recommendation exists to convert the cut off values of VAS and NRS into VRS values. These values are grouped into three categories: >0-<3 points indicate mild pruritus, ≥3-<7 points indicate moderate pruritus, ≥7-<9 points signify severe pruritus, and ≥9 points represent very severe pruritus.Citation30
Pallor, characterized by the absence of color in the skin and mucous membranes due to low circulating hemoglobin levels, signifies the primary physical indication of anemia.Citation31 Anemia is indicated if a patient’s GFR is below 20 mL/min and the hemoglobin levels are less than 10 g/dL.Citation32 According to the United States Renal Data System (USRDS) Annual Data Report of 2022, the average hemoglobin level among incident ESRD patients in 2020 was 9.3 g/dL.Citation33
Statistical Analysis
All collected data were entered into a Microsoft Excel spreadsheet. Statistical analysis was conducted using both Microsoft Excel and the IBM statistical package SPSS for Windows version 23. Categorical variables were presented as frequencies and percentages, while continuous variables were assessed using the Kolmogorov–Smirnov test for normality. Data that followed normal and non-normal distributions were subsequently reported as mean with standard deviation (SD) and median with interquartile range (IQR), respectively.
Ethics
The study protocol and ethical approval were obtained from the Health Research Ethics Committee of Dr. Hasan Sadikin General Hospital, Bandung, Indonesia, in accordance with the Declaration of Helsinki (ethical clearance number: LB.02.02/X.2.2.1/24859/2022). All patients were informed about the study’s purpose, and their informed consent was secured before their participation. Data confidentiality and patients’ privacy were rigorously upheld.
Results
A total of 139 patients’ medical records were included in this study. The male-to-female patient ratio was nearly balanced, with 70 (50.4%) male patients and 69 (49.6%) female patients. Their ages ranged from 19 to 76 years, with a mean age (SD) of 47.6 (11.8) years. A majority of the patients were unemployed, and over half of them were housewives. The duration of hemodialysis spanned from 3 months to 19 years, with a median duration (IQR) of 48 (96.0–24.0) months. Further details regarding the demographic characteristics of the patients can be found in .
Table 1 Demographic Characteristics of Study Population
In terms of frequency, xerosis and pallor were more prevalent compared to pruritus. Xerosis was identified in 84 (60.4%) patients. The demographic and clinical characteristics of xerosis are outlined in . Predominantly, xerosis presented as mild in severity, with the most frequently observed ODS score being 1, accompanied by a with median (IQR) ODS score of 1 (1.0–1.0). All patients exhibiting xerotic lesions displayed them on their legs.
Table 2 Demographic and Clinical Characteristics of Xerosis
The demographic and clinical attributes of pruritus are detailed in . Pruritus was reported in 56 (40.3%) patients. The median (IQR) VAS score was 5 (7.5–3.0). The majority of patients experiencing pruritus fell within the ≥3-<7 VAS score range.
Table 3 Demographic and Clinical Characteristics of Pruritus
presents the demographic and clinical characteristics of pallor. Among all the patients included in this study, 83 (59.7%) displayed pallor. Most patients with pallor exhibited a hemoglobin level below 10 g/dL, with a median (IQR) of 8.4 (8.9–7.9) g/dL.
Table 4 Demographic and Clinical Characteristics of Pallor
Discussion
A high prevalence of mucous and skin disorders was observed among patients undergoing hemodialysis.Citation19 Various skin disorders are prevalent in stage 5 CKD patients undergoing hemodialysis. This study specifically collected data on xerosis, pruritus, and pallor.
The prevalence of xerosis in hemodialysis patients varies between 54% and 91%.Citation19 In congruence with these estimates, our study identified xerosis in 60.4% of patients. Similar findings were reported by Nasir et al,Citation17 who observed xerosis in 60% of their patients. Conversely, Bouhamidi et alCitation18 noted a lower prevalence of 40.9% in their study. Discrepancies in prevalence could stem from geographic and environmental differences.Citation16 Our study took place in Indonesia, a tropical country with increased sun exposure that might contribute to skin dehydration, hence intensifying skin dryness.Citation34
Xerosis was present in 46 (65.7%) males and 38 (55.1%) females. This dry skin condition was more common among the employed group (62.8%), the ≥65 age group (81.8%), and those undergoing hemodialysis for <18 months (63.6%). The development of xerosis is attributed to three primary mechanisms: cutaneous dehydration, altered barrier function, and heightened irritability to external agents.Citation24 In CKD, dysfunctional sebaceous and apocrine sweat glandsCitation35 lead to reduced skin lipid levels, thereby compromising skin hydration. Additionally, skin barrier dysfunction impairs water content in the stratum corneum.Citation24 These dermal changes are closely tied to uremia,Citation36 possibly explaining the higher prevalence of xerosis in patients undergoing hemodialysis for <18 months; those with longer hemodialysis durations may have better hemodialysis adequacy, as suggested by Rezaiee et al.Citation37 Factors such as excessive diuretic dosages, vitamin A metabolism disruptions, glycerol deficiency-induced dehydration, and chemical irritants might also contribute to xerosis development in hemodialysis patients.Citation19 Socioeconomic status, dust and detergent exposure, and inadequate emollient use may also be contributory.Citation34 This could elucidate why xerosis was more prevalent in the employed group, as they engage in outdoor activities more frequently, exposing them to dusts, detergents, and other external substances. While housewives are categorized as unemployed, they are still susceptible to detergent exposure and indoor air pollution from cooking. This may account for the relatively high occurrence of xerosis in housewives (54.4%) and the unemployed group (59.4%). Males might exhibit a higher tendency for dry skin due to suboptimal emollient use, compared to females who generally exhibit greater cosmetic awareness. Additionally, advanced age can exacerbate xerosis.Citation24 This could contribute to the increased prevalence of dry skin among individuals aged ≥65 years in this study.
In accordance with the ODS score, most patients exhibited mild xerosis. In contrast, Kurniawan et alCitation25 found severe xerosis (n=18, 46.2%) most commonly among their 39 patients. This condition typically affects the extensor surfaces of the forearms, legs, and, thighs, similar to observations by Udayakumar et alCitation20 in their study.Citation16 Existing literature indicates that xerosis in maintenance dialysis patients frequently manifests across a range of locations, especially on the legs, back, chest, and hands.Citation24 In this study, all patients displayed xerosis on their legs, with the forearms being the second most affected body part. Only a small subset of patients exhibited xerosis on their chest and back. Ana-Sonia et alCitation38 reported a similar pattern, where xerosis predominantly affected the chest, back, and extensor surfaces of the extremities. In terms of lesion distribution, most patients presented with localized xerosis (65.5%), confined to their legs.
Patients undergoing hemodialysis often experience pruritus, an uncomfortable symptom.Citation34 However, pruritus was the least frequent finding in the present study, accounting for 40.3% of the total study population. This prevalence was lower than what has been reported in previous studies.Citation5,Citation15–19,Citation21,Citation34 According to the VAS score, moderate pruritus was the most frequently observed severity in this study. Similarly, Ariyani and RobbyCitation39 noted that moderate pruritus (n=13, 34%) was the highest, with an equal frequency to severe pruritus (n=13, 34%). The higher frequency of severe pruritus in their study compared to ours might be due to the exclusion of patients who were on anti-pruritic therapy.
The exact cause of pruritus in CKD is not well understood, but it’s likely related to the gradual accumulation of pruritogens, the nature of which remains unknown.Citation20 Several mechanisms, including uremic toxins, immune dysregulation, neuropathy, and opioid imbalance, are considered possible contributors.Citation23 Hemodialysis can trigger immune responses, such as interleukin-1 production by leukocytes, which is believed to act as a pruritogen.Citation40 This mechanism could explain the higher occurrence of pruritus in the hemodialysis duration ≥18 months group (42.4%) in our study. Advanced age is generally associated with an increased tendency for pruritus due to physiological changes in elderly skin, resulting in reduced hydration and altered nerve function.Citation39 This could account for the higher prevalence of pruritus was more frequent in the ≥65 years old group (72.7%). Employment status might also influence pruritus. Satti et alCitation41 found an association between employment and pruritus, indicating that employed males had significantly lower 5-D itch scores than unemployed males. This might be due to the psychological distraction provided by a regular job, suppressing the urge to itch. Housewives, on the other hand, face factors that can exacerbate pruritus, such as heatCitation23 from cooking and skin drynessCitation23 caused by detergent and indoor pollution exposure, thus explaining the common occurrence of pruritus among housewives (45.4%). Taken together, these factors could contribute to the higher frequency of pruritus in the unemployed group (44.8%).
Pallor in CKD patients is primarily a consequence of anemia.Citation17 Skin pallor is considered a hallmark of CKD and an early observable sign.Citation20,Citation21 In our study, pallor (59.7%) was the second most prevalent finding. Other studies reported pallor prevalence ranging from 60% to 100%.Citation5,Citation15,Citation17,Citation21 Pallor was more frequent in females (68.1%) and the 18–44 age group (60.7%). Although there was only a slightly higher prevalence of pallor in the unemployed group (60%) compared to the employed group (59.1%), a higher prevalence was noted among housewives (65.1%) within the unemployed group. Among the 83 patients with pallor, 77 (92.77%) had hemoglobin levels below 10 g/dL. In a study by Udayakumar et al,Citation20 64% of patients with pallor exhibited hemoglobin levels below 8 g/dL. Anees et alCitation5 reported a statistically significant association between pallor and hemoglobin levels, with 112 (70.8%) patients with pallor having hemoglobin levels below 11 g/dL. Anemia in CKD arises from various factors, including nutritional deficiencies,Citation5 such as iron, folic acid, and vitamin D,Citation38 reduced erythrocyte survival, erythropoietin deficiency due to uremic toxin-induced suppression of erythropoietin synthesis,Citation42 and blood loss due to coagulation disorders.Citation5 The higher frequency of pallor in females, the 18–44 age group, and particularly housewives in our study might be attributed to a greater risk of iron deficiency due to menstrual blood loss in premenopausal women. Lower dietary iron intake could also be contributory.Citation43 Pallor was also more prevalent in patients with hemodialysis durations below 18 months (66.7%). This could be due to the possibility that patients with longer hemodialysis durations achieve better hemodialysis adequacy, leading to improved clearance of uremic toxins and enhanced erythropoietin synthesis.
Conclusion
This study revealed a high prevalence of xerosis and pallor. Although pruritus exhibited a lower frequency compared to the previous two disorders, it remained a common symptom, often occurring in patients undergoing hemodialysis. The insights provided in this research can significantly assist medical professionals in promptly identifying these skin conditions. Given their frequent occurrence among stage 5 CKD patients undergoing hemodialysis, this information should be factored into the diagnostic process for stage 5 CKD. Additionally, the demographic characteristics data for each disorder could facilitate further investigations into potential correlations with the presence of these disorders. The clinical insights presented here are valuable for physicians, enabling them to tailor appropriate management strategies for each condition. Ultimately, such interventions have the potential to enhance patients’ quality of life and reduce morbidity and mortality rates.
Disclosure
The authors report no conflicts of interest in this work.
Acknowledgments
The authors would like to express their gratitude to the staff of Department of Dermatology and Venereology and Department of Internal Medicine, Faculty of Medicine, Universitas Padjadjaran as well as as all the staff of Medical Record Unit in Dr. Hasan Sadikin General Hospital, Bandung, West Java, Indonesia.
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