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Revised

Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics.

[version 2; peer review: 1 approved, 1 approved with reservations]
Previously titled: Progression of chronic kidney disease in patients with hypertension or type 2 diabetes mellitus, can it be delayed?
Leena Sequira
https://orcid.org/0000-0001-6578-5548
1Ravindra Prabhu A.
https://orcid.org/0000-0002-5980-7197
2Shreemathi S Mayya3Shankar Prasad Nagaraju4Baby S Nayak
https://orcid.org/0000-0001-9659-9860
5
Leena Sequira
https://orcid.org/0000-0001-6578-5548
1Ravindra Prabhu A.
https://orcid.org/0000-0002-5980-7197
2[...] Shreemathi S Mayya3Shankar Prasad Nagaraju4Baby S Nayak
https://orcid.org/0000-0001-9659-9860
5
PUBLISHED 01 Mar 2023
Author details Author details
OPEN PEER REVIEW
REVIEWER STATUS

This article is included in the Manipal Academy of Higher Education gateway.

Abstract

Background: In India, the number of patients with type II diabetes mellitus in 2006 was 40.9 million and is expected to increase by 2025 to 69.9 million. The occurrence rate of stage 5 CKD was 151 per million population in India.
Diabetes Mellitus and hypertension were the usual triggers of Chronic Kidney Disease (CKD). A structured education program helps in the prevention of diabetes and hypertension related complications. 
Methods: This quasi-experimental study was conducted among 88 participants who had hypertension, diabetes mellitus, or both for five or more years with an objective to find the effect of a Disease Management Program on delaying progression of CKD in patients with hypertension or diabetes mellitus. 
 The baseline data were collected on demographic proforma, serum creatinine, blood pressure, and random blood sugar, and the patients were taught the management of hypertension and diabetes mellitus. In the fourth and the eighth month, blood pressure and blood sugar were reassessed. At one-year blood pressure, blood sugar, and serum creatinine were tested. Baseline and one-year follow-up blood pressure, blood sugar, and estimated Glomerular Filtration Rate were compared. Descriptive statistics and "Wilcoxon signed-rank test" were used to analyze the data.  
 Results: In one year, the mean systolic blood pressure reduced by six mm of Hg and mean blood sugar by 24 mg/dl. The prevalence of CKD stage three and above (< 60 ml/min/m2) was nine (10.22%). The median decline in eGFR was 5 ml/min/m2 (Z= 5.925, P< 0.001). 
Conclusion: The Disease Management Program led to improvements in blood pressure and diabetes control and median progression of CKD was estimated at five ml/min/m2/year.

Keywords

Hypertension, Type 2 DM, Disease Management Program, estimated Glomerular Filtration Rate, Chronic Kidney Disease

Corresponding author: Leena Sequira
Competing interests: No competing interests were disclosed.
Grant information: The author(s) declared that no grants were involved in supporting this work.
Copyright:  © 2023 Sequira L et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
How to cite: Sequira L, Prabhu A. R, S Mayya S et al. Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics. [version 2; peer review: 1 approved, 1 approved with reservations]. F1000Research 2023, 11:1111 (https://doi.org/10.12688/f1000research.123787.2) First published: 28 Sep 2022, 11:1111 (https://doi.org/10.12688/f1000research.123787.1) Latest published: 12 Mar 2024, 11:1111 (https://doi.org/10.12688/f1000research.123787.3)

Revised Amendments from Version 1

Title is modified - Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics.
Blood pressure measurement is explained in detail -For checking blood pressure calibrated sphygmomanometer with appropriate cuff size of 13.1 × 23.5 cm was used. Before blood pressure measurement was taken it was made sure that the samples has not consumed tea or coffee, smoked or exercised vigorously in the last 30 minutes. Blood pressure was measured in the sitting position on the upper arm with the arm supported, and sphygmomanometer at the level of the heart. The investigator checked blood pressure twice in one sitting and average of the two readings recorded.

See the authors' detailed response to the review by Manohar Bairy

Introduction

Non-Communicable Diseases (NCD) are the most remarkable cause of fatality in the world. The global predicted prevalence of diabetes among adults is 439 million by 2030 (Shaw, Sicree, & Zimmet, 2010). The estimated global prevalence of diabetes in 2019 is 9.3% expected to rise to 10.2% by 2030 (Saeedi et al., 2019). Stage 3 Chronic Kidney Disease (CKD) in people with diabetes is reported to be high (56%) in Cambodia (Thomas, van, Mehrotra, Robinson-Cohen, & LoGerfo, 2014). CKD was 10·8% in rural areas of China. Hypertension and diabetes were associated with CKD (Zhang et al., 2012). In the United States, 23.5% of individuals aged above 18 years, had CKD (McFarlane et al., 2011).

The studies conducted in India, on the prevalence of CKD especially among people with hypertension and type 2 DM. The occurrence of diabetes in adults has increased in India (Tandon et al., 2018). The prevalence of diabetes mellitus was 8.3%, with only 18% receiving treatment (Tripathy et al., 2017). Type 2 DM and hypertension were the usual triggers of CKD (Rajapurkar et al., 2012). Hyperglycemia is causing an increase of CKD cases in India. Programs are needed to reduce the risk factors of diabetes mellitus (Tripathy, 2018). CKD was found in 34.91% of the general population, aged above 18 years, from Varanasi, India (Rai, Jindal, Rai, Rai, & Rai, 2014). Screening programs are needed to identify CKD in a risk group (Ene-Iordache et al., 2016). The occurrence rate of stage 5 CKD was 151 per million population (Modi & Jha, 2006). Lack of knowledge about CKD was observed in people with diabetes (Fiseha & Tamir, 2020). Diabetes and hypertension were associated with low eGFR and proteinuria (Singh et al., 2009).

Screening of high-risk populations for CKD helps in the initial detection of CKD (Bradshaw et al., 2019). It is observed that people are unaware of the complications of diabetes and hypertension. Educating the people is essential before they could land up with CKD (Hussain, Habib, & Najmi, 2019). The CKD was found to be 24.2% among people aged above 50 years in rural Pondicherry, India. The study suggests targeted screening of adults to prevent further progression of CKD (Kumar, Dongre, Muruganandham, Deshmukh, & Rajagovindan, 2019). A structured education program helps in the prevention of diabetes-related complications (Iqbal & Heller, 2018).

The National kidney foundation has defined five stages in CKD, and in the fifth stage, a patient needs dialysis or kidney replacement to live. GFR can be estimated by using the Chronic Kidney Disease – Epidemiology Collaboration (CKD - EPI) formula (Michels et al., 2010). Serum creatinine is widely used to measure the eGFR (Coresh et al., 2002). Detection of CKD at the beginning stages helps to slow down progress, which in turn reduces the financial load on individuals, families, and communities.

Studies suggest that the prevalence of hypertension and diabetes is increasing in India and it is the main cause of CKD. There is a clear lack of knowledge about the risks associated with uncontrolled diabetes and hypertension. Most of the population are diagnosed with type 2 DM but are not rightly educated about the complications of negligence associated with it. So, this lack of knowledge has been identified as one of the major reasons for the progress of CKD. Hence the present study intends to look at this aspect and educate the population about the same and monitor their progress across one year period.

Methods

Study design and participants

A quantitative approach with quasi-experimental, one group pretest- posttest design was used in this study. The aim of this study was to find the effect of a Disease Management Program (DMP) on delaying progression of CKD in patients with hypertension or type 2 diabetes mellitus.

The participants were the people diagnosed with hypertension and/or diabetes for five or more year's duration and treatment. People visiting rural health centers of Udupi District, Karnataka State, India, aged 30 years and above were the sampled population selected through enumerative sampling technique. Sample size calculated to reach statistical significance with a power of 0.8, a standard deviation of eight, decline in eGFR in one year of five, and significance level 0.05, the total sample required was 22 each in stages one, two, and three of CKD. Keeping a 5% nonresponse rate total sample estimated was 70. The Chronic Kidney Disease stage was known after the serum creatinine test and formula application; hence the total sample taken was 103. Out of 103, for one year, 15 participants failed to follow up and hence 88 samples were analyzed.

Study instruments

The data were collected using demographic proforma which includes, age, gender, height, weight, serum creatinine, blood pressure, RBS, hypertension, and diabetes mellitus status, and duration of illness. A calibrated weighing scale was used to measure the weight. New measuring tape, sphygmomanometer, and glucometer were used to assess the height, blood pressure, and blood sugar, respectively. For checking blood pressure calibrated sphygmomanometer with appropriate cuff size of 13.1 × 23.5 cm was used. Before blood pressure measurement was taken it was made sure that the samples has not consumed tea or coffee, smoked or exercised vigorously in the last 30 minutes. Blood pressure was measured in the sitting position on the upper arm with the arm supported, and sphygmomanometer at the level of the heart.The investigator checked blood pressure twice in one sitting and average of the two readings recorded. The intervention, DMP, refers to educating the participants about the management of hypertension or diabetes mellitus on a one-to-one basis (explaining and giving leaflets) and follows up on every fourth month, till one year, with teaching reinforcement along with random blood sugar and blood pressure assessment, as well.

Development of the education module and leaflet about hypertension and diabetes mellitus was prepared by the researcher by reviewing the published and unpublished literature and validated by experts. The education module contains the meaning, causes and risk factors, signs and symptoms, diagnosis, and management. Management included nutrition, exercise, monitoring of blood sugar and blood pressure, pharmacologic therapy. An explanation about the disease is given in a simple, understandable way, and doubts raised by patients were cleared. Complications were explained to improve the compliance level. The importance of exercise, nutrition, and compliance with medication in controlling blood sugar and blood pressure were also explained.

The researcher filled the demographic proforma by collecting information from the participants and assessed height, weight, blood pressure, and Random Blood Sugar (RBS). Blood for serum creatinine was collected using serum vacutainer and assessed using the standard Jaffe method calibrated to Isotope Dilution Mass Spectrometry (IDMS). CKD-EPI formula was used to estimate GFR. Teaching was given about managing hypertension and diabetes mellitus, and a leaflet about the same was distributed during the baseline data collection. Fourth and eighth-month blood pressure and RBS were reassessed, and teaching was reinforced. At one-year blood pressure, RBS, and serum creatinine were tested.

Study variables

Demographic variables were age, gender, serum creatinine height, and weight. Teaching regarding management of Hypertension and Diabetes Mellitus is the independent variable. Blood pressure and RBS were the dependent variables that affect kidney function and eGFR is the key variable. Other variables are disease conditions (Diabetes Mellitus or Hypertension or both) and duration of illness.

Data analysis

Data were analyzed using SPSS. Continuous variables are summarized using mean or median whichever is applicable and categorical variables using proportions. Frequency and percentage were used to describe the participant characteristics. Blood pressure and RBS were the dependent variables that affect kidney function. Mean, standard deviation, and range were used to summarize blood pressure, RBS, and paired’t’ test to compare baseline and at one year follow up systolic blood pressure (SBP), diastolic blood pressure (DBP), and RBS. As per, kidney disease: Improving Global Outcomes (KDIGO) Guidelines CKD is classified into five stages. Stage 1 (GFR ≥ 90 ml/min), stage 2 (GFR = 60-89 ml/min), Stage 3 (GFR = 30-59 ml/min), Stage 4 (GFR = 15-29 ml/min), stage 5 (GFR < 15 ml/min). Cross table was used to explain the number of participants who improved, remained in the same stage of CKD, and progressed to a higher stage of CKD. “Wilcoxon signed-rank test” was used to find the effectiveness of DMP as data (eGFR) were not following normality. The difference between baseline and one-year follow-up GFR is done and categorized into ≤1 ml, 1-10 ml, and more than 10 ml.

Ethical considerations

The study protocol was approved by the Kasturba Medical College and Kasturba Hospital Institutional Ethics Committee. (IEC184/2011). The participant information sheet was given to the participants, and the study process was explained and informed written consent was obtained from the participants before data collection.

Results

Demographic characteristics of participants

Demographic characteristics of baseline and one-year follow-up are summarized in Table 1. About 87.5 % of them belong to the age group of 51 years, and above, 46.6% of them were hypertensive, and 35.2% of them had both hypertension and type 2 DM.

Table 1. Sample characteristics in frequency and percentage.

VariablesBaseline N = 103At one year N = 88
f (%)f (%)
Age (in years)30-402 (1.9)2 (2.3)
41-5014 (13.6)9 (10.2)
51 & above87 (84.5)77 (87.5)
Mean age61 ± 10.763 ± 10.5
GenderMale52 (50.5)45 (51.1)
Female51 (49.5)43 (48.9)
Disease statusHypertension49 (47.6)41 (46.6)
Diabetes Mellitus (DM)20 (19.4)16 (18.2)
Both Hypertension &DM34 (33)31 (35.2)
Serum creatinine (mg/dl)≤1.5100 (97.10)82 (93.18)
>1.5-1.93 (2.90)6 (6.82)
Mean ± SD0.916 ± 0.241.07 ± 0.30
Hypertension duration (in years)≤1063 (75.90)53 (73.60)
11-1511 (13.25)10 (13.90)
>159 (10.85)9 (12.50)
Diabetes duration (in years)≤1042 (77.78)35 (74.47)
11-155 (09.26)5 (10.64)
>157 (12.26)7 (14.89)

Mean, standard deviation and range of BP and RBS and comparison of SBP, DBP & RBS using paired t' test

Table 2 shows mean, standard deviation, range of blood pressure, and RBS at the four-month interval and results of paired t' test applied to compare baseline and at one year follow up systolic blood pressure (SBP), diastolic blood pressure (DBP) and RBS. At baseline, most (69.44%) of them had SBP of 141-220 mm of Hg, 29.78% of them had an RBS level of 201-400 mg/dl. Mean SBP reduced by 6 mm of Hg and mean RBS by 24 mg/dl at one year, follow-up. There was a significant reduction in blood pressure and RBS (p < 0.001) for one-year follow-up.

Table 2. Mean, standard deviation and range of BP and RBS and comparison of SBP, DBP & RBS using paired‘t’ test.

N=88
Mean & SD SBPMean & SD DBPMean & SD RBSRange SBPRange DBPRange RBS
Baseline144 (21)86 (9)184 (85)110-22060-11089-480
At four months140 (15)85 (7)170 (53)110-18070-10092-360
At eight months138 (13)84 (6)162 (38)110-17670-9896-258
At one year138 (14)85 (7)160 (38)110-18060-100100-252
‘t’ Value3.4091.7312.840
‘P’ value0.0010.080.007

Baseline and one-year follow-up stages of CKD

Table 3 shows the baseline and one-year follow-up stages of CKD. At baseline, 47 participants had stage 2 CKD. Among them, four of them improved to stage 1, and 13 of them progressed to stage 3 CKD. At baseline, eight participants had CKD stage 3. Out of eight, two of them improved to stage 2, and one progressed to stage 4 CKD, and five remained in the same stage.

Table 3. CKD stages at baseline and one year follow up using CKD - EPI formula.

N= 88
CKD stages – At one year follow up
CKD – stages baseline1234Total
113 (40.60)19 (59.40)0032 (100)
24 (8.5)30 (63.8)13 (27.7)047 (100)
302 (25)5 (62.5)1 (12.50)8 (100)
40001 (100)1 (100)
Total17 (19.3)51 (58)18 (20.40)2 (2.3)88 (100)

Effectiveness of the DMP

Table 4 shows the effectiveness of the DMP. The pre and post-intervention eGFR data of participants was not following normality, hence median, median difference, and 'Z' value of pre and post-intervention eGFR were assessed. The median fall in GFR is 5 ml/min/m2/year and there is a significant difference in GFR change in one year follow up, which says the intervention is not effective. The intervention helped to delay renal function deterioration. Table 5 shows the progression of CKD for a one-year follow-up. About 36.4% of participants lost only less than 1ml of GFR for one year.

Table 4. Median, median difference, and ‘Z’ value of pre and post intervention eGFR.

N = 88
NMedianIQR
Pre (Baseline)888324
Post (After 1 year887826

Table 5. Progression of CKD for one year follow up.

eGFR loss (ml)DM & Hypertension N = 31DM N = 16Hypertension N = 41Hypertension, DM and Both (41+16+31) N = 88
≤1 ml14 (45.2)7 (43.8)11(26.8)32 (36.4)
1-10 ml5 (16.1)2 (12.5)12 (29.3)19 (21.6)
>10 ml12 (38.7)7 (43.8)18 (43.9)37 (42)

Discussion

The result of the present study shows that CKD stage 3 and higher amounts to 10.22% of the participants. There have been few large community-based studies looking at the prevalence of CKD among hypertensive and diabetic populations in India and other countries. A study done in India reported that among 6129 participants, 2578 are having hypertension and CKD is present in 23.5% of hypertensive patients (Farag et al., 2014). Another study done in China among 1039 patients diagnosed with type 2 DM aged over 30 years shows 32.8% of CKD stage 3-5 (Lu et al., 2008). Collectively the reflection indicates that Type 2 DM and hypertension are the important public health issues, and it is associated with kidney disease.

The present study shows, in a year, mean systolic blood pressure decreased by 6 mm of Hg. A few participants confided that they were skipping the medication as signs and symptoms of the disease were not evident, but due to DMP, they returned to regular medication. Studies done in other countries suggested that DMP and assessing blood pressure, blood sugar, and GFR helps to sensitize the patients about their disease condition and to seek nephrology references if needed. DMP leads to improved hypertension control and eGFR among participants with CKD stage four or five (Richards et al., 2008). A study done in India by kidney help to screen the entire population of one village and provide medication for hypertension and diabetes showed a decrease in the prevalence of CKD (Prabahar, Chandrasekaran, & Soundararajan, 2008). Another study done in Australia among patients with diabetes, CKD, and hypertension showed no significant improvement in the intervention group (n = 36) in terms of medication adherence and blood pressure control. However, there was a 6 mm Hg reduction in SBP (Williams, Manias, Walker, & Gorelik, 2012b). Another study showed no significant differences in drug adherence between the intervention and control groups (Williams, Manias, Liew, Gock, & Gorelik, 2012a). The study on the impact of eGFR reporting on referral rates shows that eGFR reporting was useful in reducing the late referral to nephrology services (Foote et al., 2014). Hence it is necessary to identify the early stages of CKD, educate them about the importance of disease management.

The present study reports that the rate of drop in eGFR in one year was 5 ml/minute/1.73 m2. At one year follow-up, 36.4% lost less than 1 ml, and 21.6% lost 1-10 ml of eGFR. However, there are no research studies done in India to compare the change in eGFR in one year. The fall in eGFR ranges from 2-20 ml/minute/1.73 m2/year (Snyder & Pendergraph, 2005). In a study done in the US among people with diabetes, the eGFR dropped at 2.8 ml/min/1.73 m2 per year (Hanratty et al., 2010). A study done among the Rural Diabetic Cambodian population shows, at a median of 433 days follow up, 32% of patients lost more than or equal to 5 ml/min/m2 of eGFR (Thomas, Pelt, Mehrotra, Robinson-Cohen, & LoGerfo, 2014). Further studies are required to find the rate of decline in GFR in normal individuals and individuals with comorbidities.

Study limitation

Glomerular Filtration Rate was estimated and not measured. The control group was not used due to ethical reasons. Only patients with diabetes and hypertension aged 30 years and above, were studied.

Conclusion

The Disease Management Program led to improvements in blood pressure and diabetes control and median progression of CKD was estimated at 5 ml/min/m2/year. Regular assessment of eGFR of the risk group, sensitizes the patient about their renal function. Teaching about the management of hypertension and diabetes mellitus and checking blood pressure and RBS helps to know about their disease control and to take action to control blood pressure and blood sugar.

Implications to nursing practice, management, policy education and future research

People in the community are unaware of the seriousness of CKD. In the prevention and control of CKD, nurses can play an important role. In the outpatient department, nurses can educate the patients with hypertension and diabetes mellitus, and thus implement an effective DMP at the early stages of CKD. The nurse can work in the field with peripheral clinic workers for monitoring and evaluating each person by checking blood pressure and blood sugar and screening for CKD.

Data availability

Figshare: Progression of chronic kidney disease in patients with hypertension or type 2 diabetes mellitus, can it be delayed? DOI: https://doi.org/10.6084/m9.figshare.20278266

The project contains the following underlying data:

  • - Data file 1 (Sample size calculation)

  • - Data file 2 (Education program handout)

  • - Data file 3 (Raw Data)

Data are available under the terms of the Creative Commons Attribution 4.0 international licence (CC BY 4.0)

Acknowledgement

The authors would like to express their sincere gratitude to all participants, who have cooperated in conducting this study.

References

  •  Bradshaw C, Kondal D, Montez-Rath ME, et al.: Early detection of chronic kidney disease in low-income and middle-income countries: development and validation of a point-of-care screening strategy for India. BMJ Glob. Health. 2019; 4(5): e001644. PubMed Abstract | Publisher Full Text
  •  Coresh J, Astor BC, McQuillan G, et al.: Calibration and random variation of the serum creatinine assay as critical elements of using equations to estimate glomerular filtration rate. Am. J. Kidney Dis. 2002; 39(5): 920–929. PubMed Abstract | Publisher Full Text
  •  Ene-Iordache B, Perico N, Bikbov B, et al.: Chronic kidney disease and cardiovascular risk in six regions of the world (ISN-KDDC): a cross-sectional study. Lancet Glob. Health. 2016; 4(5): e307–e319. PubMed Abstract | Publisher Full Text
  •  Farag YM, Mittal BV, Keithi-Reddy SR, et al.: Burden and predictors of hypertension in India: results of SEEK (Screening and Early Evaluation of Kidney Disease) study. BMC Nephrol. 2014; 15(1): 42. PubMed Abstract | Publisher Full Text
  •  Fiseha T, Tamir Z: Prevalence and awareness of chronic kidney disease among adult diabetic outpatients in Northeast Ethiopia. BMC Nephrol. 2020; 21(1): 1–7. Publisher Full Text
  •  Foote C, Clayton PA, Johnson DW, et al.: Impact of estimated GFR reporting on late referral rates and practice patterns for end-stage kidney disease patients: a multilevel logistic regression analysis using the Australia and New Zealand Dialysis and Transplant Registry (ANZDATA). Am. J. Kidney Dis. 2014; 64(3): 359–366. PubMed Abstract | Publisher Full Text
  •  Hanratty R, Chonchol M, Miriam Dickinson L, et al.: Incident chronic kidney disease and the rate of kidney function decline in individuals with hypertension. Nephrol. Dial. Transplant. 2010; 25(3): 801–807. PubMed Abstract | Publisher Full Text
  •  Hussain S, Habib A, Najmi AK: Limited knowledge of chronic kidney disease among type 2 diabetes mellitus patients in India. Int. J. Environ. Res. Public Health. 2019; 16(8): 1443. PubMed Abstract | Publisher Full Text
  •  Iqbal A, Heller SR: The role of structured education in the management of hypoglycaemia. Diabetologia. 2018; 61(4): 751–760. PubMed Abstract | Publisher Full Text
  •  Kumar P, Dongre A, Muruganandham R, et al.: Prevalence of chronic kidney disease and its determinants in Rural Pondicherry, India-A community based cross-sectional study. Open Urol. Nephrol. J. 2019; 12(1): 14–22. Publisher Full Text
  •  Lu B, Song X, Dong X, et al.: High prevalence of chronic kidney disease in population-based patients diagnosed with type 2 diabetes in downtown Shanghai. J. Diabetes Complicat. 2008; 22(2): 96–103. PubMed Abstract | Publisher Full Text
  •  McFarlane SI, McCullough PA, Sowers JR, et al.: Comparison of the CKD epidemiology collaboration (CKD-EPI) and modification of diet in renal disease (MDRD) study equations: prevalence of and risk factors for diabetes mellitus in CKD in the kidney early evaluation program (KEEP). Am. J. Kidney Dis. 2011; 57(3): S24–S31. PubMed Abstract | Publisher Full Text
  •  Michels WM, Grootendorst DC, Verduijn M, et al.: Performance of the Cockcroft-Gault, MDRD, and new CKD-EPI formulas in relation to GFR, age, and body size. Clin. J. Am. Soc. Nephrol. 2010; 5(6): 1003–1009. PubMed Abstract | Publisher Full Text
  •  Modi GK, Jha V: The incidence of end-stage renal disease in India: a population-based study. Kidney Int. 2006; 70(12): 2131–2133. PubMed Abstract | Publisher Full Text
  •  Prabahar MR, Chandrasekaran V, Soundararajan P: Epidemic of chronic kidney disease in India-what can be done? Saudi J. Kidney Dis. Transpl. 2008; 19(5): 847–853. PubMed Abstract
  •  Rai PK, Jindal PK, Rai P, et al.: Screening of chronic kidney disease (CKD) in general population on world kidney day on three consecutive years: A single day data. Int. J. Med. Public Health. 2014; 4(2): 167. Publisher Full Text
  •  Rajapurkar MM, John GT, Kirpalani AL, et al.: What do we know about chronic kidney disease in India: first report of the Indian CKD registry? BMC Nephrol. 2012; 13(1): 10. PubMed Abstract | Publisher Full Text
  •  Richards N, Harris K, Whitfield M, et al.: Primary care-based disease management of chronic kidney disease (CKD), based on estimated glomerular filtration rate (eGFR) reporting, improves patient outcomes. Nephrol. Dial. Transplant. 2008; 23(2): 549–555. Publisher Full Text
  •  Saeedi P, Petersohn I, Salpea P, et al.: Global and regional diabetes prevalence estimates for 2019 and projections for 2030 and 2045: Results from the International Diabetes Federation Diabetes Atlas. Diabetes Res. Clin. Pract. 2019; 157: 107843. PubMed Abstract | Publisher Full Text
  •  Shaw JE, Sicree RA, Zimmet PZ: Global estimates of the prevalence of diabetes for 2010 and 2030. Diabetes Res. Clin. Pract. 2010; 87(1): 4–14. PubMed Abstract | Publisher Full Text
  •  Singh NP, Ingle GK, Saini VK, et al.: Prevalence of low glomerular filtration rate, proteinuria and associated risk factors in North India using Cockcroft-Gault and Modification of Diet in Renal Disease equation: an observational, cross-sectional study. BMC Nephrol. 2009; 10(1): 1–13. Publisher Full Text
  •  Snyder S, Pendergraph B: Detection and Evaluation of Chronic Kidney Disease. Am. Fam. Physician. 2005; 72: 1723–1732. PubMed Abstract
  •  Tandon N, Anjana RM, Mohan V, et al.: The increasing burden of diabetes and variations among the states of India: the Global Burden of Disease Study 1990–2016. Lancet Glob. Health. 2018; 6(12): e1352–e1362. PubMed Abstract | Publisher Full Text
  •  Thomas B, van Pelt M , Mehrotra R, et al.: An estimation of the prevalence and progression of chronic kidney disease in a rural diabetic Cambodian population. PLoS One. 2014; 9(1): e86123. PubMed Abstract | Publisher Full Text
  •  Tripathy JP, Thakur JS, Jeet G, et al.: Prevalence and risk factors of diabetes in a large community-based study in North India: results from a STEPS survey in Punjab, India. Diabetol. Metab. Syndr. 2017; 9(1): 8. PubMed Abstract | Publisher Full Text
  •  Tripathy JP: Burden and risk factors of diabetes and hyperglycemia in India: findings from the Global Burden of Disease Study 2016. Diabetes Metab. Syndr. Obes.: Targets Therapy. 2018; 11: 381–387. PubMed Abstract | Publisher Full Text
  •  Williams A, Manias E, Liew D, et al.: Working with CALD groups: testing the feasibility of an intervention to improve medication self-management in people with kidney disease, diabetes, and cardiovascular disease. Ren. Soc. Australas. J. 2012a; 8(2): 62–69.
  •  Williams A, Manias E, Walker R, et al.: A multifactorial intervention to improve blood pressure control in co-existing diabetes and kidney disease: a feasibility randomized controlled trial. J. Adv. Nurs. 2012b; 68(11): 2515–2525. PubMed Abstract | Publisher Full Text
  •  Zhang L, Wang F, Wang L, et al.: Prevalence of chronic kidney disease in China: a cross-sectional survey. Lancet. 2012; 379(9818): 815–822. Publisher Full Text

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Sequira L, Prabhu A. R, S Mayya S et al. Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics. [version 2; peer review: 1 approved, 1 approved with reservations]. F1000Research 2023, 11:1111 (https://doi.org/10.12688/f1000research.123787.2)
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Approved with Reservations
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https://doi.org/10.5256/f1000research.144890.r236892
General:
- Language is not scientific at some places.
- Readability and flow need a lot of improvement as currently it is hard to read.
- Relevant references are missing at a few places.
- Abbreviations ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Kumar A. Reviewer Report For: Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics. [version 2; peer review: 1 approved, 1 approved with reservations]. F1000Research 2023, 11:1111 (https://doi.org/10.5256/f1000research.144890.r236892)
The direct URL for this report is:
https://f1000research.com/articles/11-1111/v2#referee-response-236892
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
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Views
7
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Reviewer Report 24 Mar 2023
Manohar Bairy, Department of Renal Medicine, Tan Tock Seng Hospital, Singapore City, Singapore 
Approved
VIEWS 7
https://doi.org/10.5256/f1000research.144890.r165070
Responses and amendments by the ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Bairy M. Reviewer Report For: Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics. [version 2; peer review: 1 approved, 1 approved with reservations]. F1000Research 2023, 11:1111 (https://doi.org/10.5256/f1000research.144890.r165070)
The direct URL for this report is:
https://f1000research.com/articles/11-1111/v2#referee-response-165070
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
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Version 1
VERSION 1
PUBLISHED 28 Sep 2022
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35
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Reviewer Report 27 Oct 2022
Manohar Bairy, Department of Renal Medicine, Tan Tock Seng Hospital, Singapore City, Singapore 
Not Approved
VIEWS 35
https://doi.org/10.5256/f1000research.135925.r153673
Thanks for asking me to review.

This is an evaluation of an educational program implemented in a population with diabetes and hypertension with the objective to delay CKD progression.
 
I have the following comments ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Bairy M. Reviewer Report For: Effectiveness  of a Disease Management Program (DMP) in controlling the progression of Chronic Kidney Disease among hypertensives and diabetics. [version 2; peer review: 1 approved, 1 approved with reservations]. F1000Research 2023, 11:1111 (https://doi.org/10.5256/f1000research.135925.r153673)
The direct URL for this report is:
https://f1000research.com/articles/11-1111/v1#referee-response-153673
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
Report a concern
  • Author Response 08 Mar 2023
    leena sequira, Medical Surgical Nursing, Manipal College of Nursing, Manipal Academy of Higher Education, Manipal, 576104, India
    08 Mar 2023
    Author Response
    Thank you for the detailed review. Please find the response for the comments. 
    1. Title is modified - Effectiveness of a Disease Management Program (DMP) in controlling the progression
    ... Continue reading
    Report a concern
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COMMENTS ON THIS REPORT
  • Author Response 08 Mar 2023
    leena sequira, Medical Surgical Nursing, Manipal College of Nursing, Manipal Academy of Higher Education, Manipal, 576104, India
    08 Mar 2023
    Author Response
    Thank you for the detailed review. Please find the response for the comments. 
    1. Title is modified - Effectiveness of a Disease Management Program (DMP) in controlling the progression
    ... Continue reading
    Report a concern

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Version 3
VERSION 3 PUBLISHED 28 Sep 2022
Comment

Open Peer Review

Reviewer Status

Alongside their report, reviewers assign a status to the article:

Approved
The paper is scientifically sound in its current form and only minor, if any, improvements are suggested
Approved with reservations
A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
Not approved
Fundamental flaws in the paper seriously undermine the findings and conclusions

Reviewer Reports

Invited Reviewers
1 2
Version 3
(revision)
 12 Mar 24 		read
Version 2
(revision)
 01 Mar 23 		read read
Version 1
28 Sep 22 		read
  1. Manohar Bairy, Tan Tock Seng Hospital, Singapore City, Singapore
  2. Ashwani Kumar, The George Institute for Global Health & University of New South Wales, Sydney,, Australia

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    Alongside their report, reviewers assign a status to the article:
    Approved - the paper is scientifically sound in its current form and only minor, if any, improvements are suggested
    Approved with reservations - A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
    Not approved - fundamental flaws in the paper seriously undermine the findings and conclusions
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