Research ArticleResearch

Primary care providers’ role in newborn screening result notification for cystic fibrosis

Robin Z. Hayeems, Fiona A. Miller, Carolyn J. Barg, Yvonne Bombard, Pranesh Chakraborty, Beth K. Potter, Sarah Patton, Jessica Peace Bytautas, Karen Tam, Louise Taylor, Elizabeth Kerr, Christine Davies, Jennifer Milburn, Felix Ratjen, Astrid Guttmann and June C. Carroll
Canadian Family Physician June 2021; 67 (6) 439-448; DOI: https://doi.org/10.46747/cfp.6706439

Abstract

Objective To explore primary care providers’ (PCPs’) role in result notification for newborn screening (NBS) for cystic fibrosis (CF), given that expanded NBS has increased the number of positive screening test results, drawing attention to the role of PCPs in supporting families.

Design Cross-sectional survey and qualitative interviews.

Setting Ontario.

Participants Primary care providers (FPs, pediatricians, and midwives) who received a positive CF NBS result for an infant in their practice in the 6 months before the study.

Main outcome measures Whether the PCP notified the family of the initial positive CF screening result.

Results Data from 321 PCP surveys (response rate of 51%) are reported, including 208 FPs, 68 pediatricians, and 45 midwives. Interviews were completed with 34 PCPs. Most (65%) surveyed PCPs reported notifying the infant’s family of the initial positive screening result; 81% agreed that they have an important role to play in NBS; and 88% said it was important for PCPs, rather than the NBS centre, to notify families of initial positive results. With support and information from NBS centres, 68% would be extremely or very confident in doing so; this dropped to 54% when reflecting on their recent reporting experience. More than half (58%) of all PCPs said written point-of-care information from the NBS centre was the most helpful format. Adjusted for relevant factors, written educational information was associated with a lower rate of notifying families than written plus verbal information (risk ratio of 0.79; 95% CI 0.69 to 0.92). In the interviews, PCPs emphasized the challenge of balancing required content knowledge with the desire for the news to come from a familiar provider.

Conclusion Most PCPs notify families of NBS results and value this role. These data are relevant as NBS programs and other genomic services expand and consider ways of keeping PCPs confident and actively involved.

Novel genomic technologies promise to mitigate disease burden through early detection and targeted intervention.1 Integrating primary care providers (PCPs) into the systems of care that deliver these technologies is integral to their success. However, efforts to do so have identified gaps in content knowledge and confidence, time constraints, limited access to genetics experts, referral guidelines, and point-of-care tools, and poor integration of laboratory results into electronic medical records.2

Newborn screening (NBS), the heel prick test, presents a context that increases both the opportunity and the need for timely involvement of PCPs.3,4 The growing number and increasing complexity of positive NBS results—particularly in light of screening algorithms that will soon use next-generation sequencing as a first-tier test and biochemistry as a second-tier test5—highlights the importance of maintaining PCP involvement in NBS care (eg, of 1750 screen-positive results in Ontario annually, 11% are true positive, 57% are false positive, 20% are carriers, and 5% are secondary disease targets).6 Given the range of results and the ongoing expansion of screening programs, an emphasis on the practical effects of these findings for PCPs is warranted. Related work has emphasized the importance of the PCPs’ postnatal role in educating and communicating with families about NBS results3,7-11 and the importance of ongoing capacity building among PCPs to maintain integrated care in this context.

Newborn screening for cystic fibrosis (CF)—using the immunoreactive trypsinogen assay followed by DNA mutation analysis—is a helpful paradigm for examining the NBS system, as it represents the largest single-disease contributor to the total number of infants with positive screening results (30%).12 Herein we describe Ontario providers’ actual experience notifying families of positive screening results and determine the factors associated with their involvement in this component of care.

METHODS

Design and setting

This study draws from a larger cohort study that evaluated NBS for CF in Ontario.13-15 We received research ethics approval from the University of Toronto in Ontario, the Children’s Hospital of Eastern Ontario in Ottawa, and the Hospital for Sick Children in Toronto. Newborn Screening Ontario (NSO) is a centralized provincial program that screens approximately 140 000 infants annually. When a screen-positive result is identified, a representative from 1 of 5 regional centres attempts to contact the PCP on record. If the NSO representative reaches the PCP on record and this provider chooses to notify the family, the retrieval centre provides written- and telephone-based point-of-care information to the PCP.16 If this PCP cannot be reached or chooses to delegate notification, the regional centre notifies the family.

Sample and recruitment

Prospectively, we recruited PCPs (FPs, pediatricians [PEDs], and midwives [MWs]) who were verified to be the provider on record for an infant with positive CF screening results in 2012 to 2013. Primary care providers were excluded if they did not practise in Ontario, if contact information was incomplete, or if the index infant was younger than 33 weeks’ gestation, deceased, or in the care of the Children’s Aid Society. The survey package included a self-complete questionnaire, an information sheet, and a coffee shop coupon. Following the Dillman method, we contacted potential participants by mail with a study notification letter and up to 3 reminders, over a 10-week period. Completing the questionnaire constituted consent. Respondents were also invited to participate in a qualitative interview, for which consent was obtained.

Data collection

Our structured questionnaire assessed providers’ awareness of NBS, perspectives on the PCP role in result notification and care of CF carrier infants, and thoughts on modifiable barriers to PCP involvement. Our survey instrument was adapted from questionnaires used with similar study populations10,17-24 or that addressed similar PCP dynamics25-27 and was pilot-tested with a convenience sample of PCPs in Toronto (N = 15). Two members of the study team (J.P.B. and S.P.) conducted qualitative telephone interviews. The interview guide queried providers’ engagement with NBS, perceived and desired roles, experiences, and barriers related to notifying families of positive screening results.

Analysis

Questionnaire data were manually entered into IBM SPSS, version 18. Double data entry was performed for 10% of the sample but not completed for the full data set (error rate < 0.5%). We quantified the overall pattern of responses, developing frequency distributions, comparing across PCP groups. We used Embedded Image2 and Fisher exact tests; 2-sided P values less than .05 indicated statistical significance. We used robust Poisson regression to analyze the association of beliefs, confidence, and practice factors with actual notification of positive screening results, controlling for PCP characteristics. All variables were prespecified and entered into the adjusted regression model.

Interviews were audiorecorded, transcribed, and coded thematically. Both deductive and inductive codes were generated independently by the authors (R.Z.H. and F.A.M.), discussed, and agreed upon. Transcripts were then independently coded by an additional author (S.P.). Themes were established and refined through an iterative process.

RESULTS

Participants

Of 628 eligible PCPs, 321 completed surveys (51%). Overall, 65% of respondents were FPs, 21% were PEDs, and 14% were MWs. Before this study, 33% to 39% had had exposure to a patient with CF, a CF carrier, or an infant with a positive CF screening result, and 53% had been exposed to a patient with a positive NBS result for another condition. Compared with PEDs and MWs, FPs reported the least exposure to these scenarios (23% to 41%; Table 1). Qualitative interviews were completed by 34 respondents; they had less practice-based exposure to CF, but similar levels of exposure to CF carriers or positive NBS screening results (Table 2).

View this table:
Table 1.

Sample characteristics

View this table:
Table 2.

Sample characteristics of interview respondents

Survey findings

Perspectives on NBS (Table 3). While more than 80% of PEDs and MWs reported being up to date about NBS, only 44% of FPs reported this. By far, most perceived that they had an important role to play in result notification (88% of FPs, 84% of PEDs, and 98% of MWs); however, anticipated confidence related to reporting results was lower (64% of FPs, 75% of PEDs, and 80% of MWs), and this dropped to 54% overall when PCPs reflected on their recent reporting experience. While providers did not expect to face practice-based barriers to reporting NBS results within 3 days (72% of FPs, 57% of PEDs, and 82% of MWs), most PEDs and FPs expected to face at least moderate barriers to reporting (more urgent) results within 1 day (67% of FPs, 68% of PEDs, and 41% of MWs). Pediatricians anticipated more barriers to notification than other groups did. Primary care providers reported a preference for both verbal and written point-of-care information (59% of FPs, 71% of PEDs, and 86% of MWs).

View this table:
Table 3.

Primary care providers’ perspectives on NBS and notification of results

Actual experience with NBS (Table 4). Most FPs and MWs had pre-existing relationships with index families, whereas only 43% of PEDs did. When given the opportunity to notify families of NBS results, most reported doing so (67% of FPs, 72% of PEDs, and 77% of MWs). Among FPs, 46% reported feeling confident with notification, whereas 74% of PEDs and 64% of MWs did. Among those who did not notify families themselves, “reported by NSO” was the most frequent reason (77%; data not shown). In practice, written point-of-care information was received more often than verbal information was by FPs (55% vs 18%) and PEDs (71% vs 20%) and was more highly valued by FPs (60% vs 28%) and PEDs (59% vs 16%) compared with MWs (46% vs 50%).

View this table:
Table 4.

Primary care providers’ actual experiences with NBS result notification

Factors associated with notification (Table 5). An in-principle commitment to NBS trended toward an association with actual result notification in practice (risk ratio of 1.31; 95% CI 1.00 to 1.71). Written information alone from the NBS centre was associated with a lower rate of notifying families than written plus verbal information (risk ratio of 0.79; 95% CI 0.69 to 0.92).

View this table:
Table 5.

Factors associated with PCP notification of parents of children with positive CF NBS results among those contacted by NSO

Interview findings

In the interviews, many respondents emphasized how patients value information coming from a known PCP, while others deferred notification to the program, doubting their content expertise. For most providers, the existing integrated system design—in which NSO acts as liaison for the provider, equips them with essential point-of-care facts, and determines the best notification plan—is working well. However, some reflected upon system fallibility when, for example, “I get a panicked call … and I’m scrambling trying to get information before I call [Dad] back, in the middle of clinic” (Table 6).

View this table:
Table 6.

Qualitative findings from interviews with PCPs: N = 34.

DISCUSSION

Our findings show that most PCPs agreed that they have an important role in NBS and, specifically, an important role in notification of positive screening results. For the recent infant in their care, most reported having notified and discussed positive results with the family. This was largely driven by a principled belief in maintaining a role in the screening system. Qualitative data show that providers believe that patients value notification from a familiar professional, despite concerns about their own content expertise, lending further support to the importance of their role. The value of the information provided by the screening program was emphasized as mitigating these concerns. While theoretically providers preferred receiving written and verbal information, most received only written information during their actual notification experience and valued it highly.

We identified variation across PCP groups enrolled in our study, highlighting specific characteristics and conditions that might warrant further attention. For example, while more than 80% of PEDs and MWs reported being up to date on NBS, only 44% of FPs shared this view. In previous work (2009),20 soon after NBS expanded in Ontario, 46% of FPs reported feeling up to date. Suboptimal awareness among FPs—particularly when sustained over time—warrants consideration by both the NBS and FP communities. This might be a partial explanation for the finding that FPs were less likely to perceive an important role for themselves and were less confident about result notification than PEDs and MWs were. Qualitative reservations about content expertise align with these findings. While seemingly not as prepared for the task as they might have preferred to be (or perhaps more humble in their reporting), FPs’ belief in their role, access to effective point-of-care tools, and engagement with the families in their care appear to have motivated proactive involvement. Literature that reflects on the role of PCPs in post-NBS care is limited and focuses primarily on communication practices and quality.3,7-11 In addition, it is largely drawn from non-Canadian settings where the links between the local screening programs and PCPs are not as well established as they are in Canada. For this reason, our data help to reflect on specific provider characteristics, practice conditions, and qualitative experiences that are associated with PCP engagement in post-NBS care.

Our findings can inform ongoing efforts to optimize PCPs’ roles in NBS and other types of genomic screening and diagnostics. While our findings reflect on the specific context of NBS for CF, we speculate that providers’ perceived role, commitment to families, and active use of point-of-care tools will be essential to their sustained integration into delivering genomic medicine. Related work conducted by Carroll et al2 identified that strong ties to local genetics services are also essential to this integration. Similarly, ongoing efforts to optimize electronic interfaces, communication processes, and continuing education between PCPs and centralized genomic screening programs should be maintained. In our view, these core enablers will hold true as testing technologies and algorithms evolve. While emerging screening algorithms for CF are expected to reduce the rate of false positives,28 PCPs will be the recipients of positive results related to novel targets, but are already central to increasingly genomics-driven prenatal screening29 and might soon play a central role in navigating the application of genome-wide sequencing to their practices.30,31

Limitations

Our response rate was low and respondents represent the experience of those who are more invested in NBS. Data are also limited by possible recall bias. As our data reflect the experience of Ontario providers, its applicability to jurisdictions where NBS programs interface differently with PCPs might be limited. However, on comparable characteristics ascertained by the National Physician Survey, our sample is aligned (eg, < 10% in academic centres, < 40% in practice for 0 to 15 years).32 While data herein address result notification, the survey also ascertained PCPs’ role in post-NBS care (page e144).33 Finally, while these data were collected in 2012 and respondents’ views might differ today, PCPs’ knowledge, attitudes, and confidence related to genetics tends to remain stable over time.34

Conclusion

In the context of NBS for CF, PCPs place importance on their involvement in notifying families of screen-positive results. Point-of-care information is essential to facilitating this process. Close links between screening and diagnostic laboratories and PCPs, as well as ongoing educational initiatives in primary care, will be essential for effective delivery of genomic medicine.

Acknowledgment

This study was funded by the Canadian Institutes of Health Research.

Notes

Editor’s key points

▸ New technologies and targets are being implemented into newborn screening programs, increasing the importance of primary care provider involvement in supporting this population-wide program.

▸ Primary care providers endorse the importance of their involvement in notification of positive results and value point-of-care information from newborn screening programs to enable effective communication with families in their care.

▸ Continued effort to engage primary care providers in genomic medicine is warranted.

Points de repère du rédacteur

▸ Les programmes de dépistage néonatal utilisent de nouvelles technologies et se fixent d’autres cibles, ce qui rehausse l’importance de la participation des professionnels des soins primaires dans le soutien à ces programmes populationnels.

▸ Les professionnels des soins primaires conviennent de l’importance de leur implication dans la révélation des résultats positifs, et ils valorisent l’obtention de renseignements au point de service de la part des programmes de dépistage néonatal pour permettre une communication efficace avec les familles qu’ils soignent.

▸ Il est justifié de poursuivre les efforts de mobilisation des professionnels des soins primaires dans la médecine génomique.

Footnotes

  • Contributors

    All authors were involved in the design of the study and reviewed and edited the manuscript. Drs Hayeems, Carroll, Miller, Bombard, Potter, and Guttmann and Ms Barg were involved in the analysis and Drs Hayeems, Carroll, Miller, Bombard, Potter, and Guttmann were involved in writing the manuscript.

  • Competing interests

    None declared

  • This article has been peer reviewed.

  • Cet article a fait l’objet d’une révision par des pairs.

References

  1. 1.
    1. Ginsburg GS,
    2. Phillips KA.
    Precision medicine: from science to value. Health Aff (Millwood) 2018;37(5):694-701.
    OpenUrlCrossRefPubMed
  2. 2.
    1. Carroll JC,
    2. Makuwaza T,
    3. Manca DP,
    4. Sopcak N,
    5. Permaul JA,
    6. O’Brien MA, et al.
    Primary care providers’ experiences with and perceptions of personalized genomic medicine. Can Fam Physician 2016;62:e626-35. Available from: https://www.cfp.ca/content/cfp/62/10/e626.full.pdf. Accessed 2021 May 4.
    OpenUrlAbstract/FREE Full Text
  3. 3.
    1. Hayeems RZ,
    2. Miller FA,
    3. Carroll JC,
    4. Little J,
    5. Allanson J,
    6. Bytautas JP, et al.
    Primary care role in expanded newborn screening. After the heel prick test. Can Fam Physician 2013;59:861-8.
    OpenUrlAbstract/FREE Full Text
  4. 4.
    1. Watson MS,
    2. Mann MY,
    3. Lloyd-Puryear MA,
    4. Rinaldo P,
    5. Howell RR; American College of Medical Genetics Newborn Screening Expert Group
    . Newborn screening: toward a uniform screening panel and system—executive summary. Pediatrics 2006;117(Suppl 3):S296-307.
    OpenUrlCrossRefPubMed
  5. 5.
    1. Powell CM.
    What genomic sequencing can offer universal newborn screening programs. Hastings Cent Rep 2018;48(4):S18-9.
    OpenUrl
  6. 6.
    1. Newborn Screening Ontario
    . Annual report to the Newborn Screening Ontario Advisory Council. Calendar year 2017. Ottawa, ON: Newborn Screening Ontario; 2018. Available from: https://www.newbornscreening.on.ca/sites/default/files/2017_nso_annual_report_final_public.pdf. Accessed 2018 Dec 15.
  7. 7.
    1. Finan C,
    2. Nasr SZ,
    3. Rothwell E,
    4. Tarini BA.
    Primary care providers’ experiences notifying parents of cystic fibrosis newborn screening results. Clin Pediatr (Phila) 2015;54(1):67-75. Epub 2014 Aug 6.
    OpenUrlCrossRefPubMed
  8. 8.
    1. Farrell MH,
    2. Christopher SA.
    Frequency of high-quality communication behaviors used by primary care providers of heterozygous infants after newborn screening. Patient Educ Couns 2013;90(2):226-32. Epub 2012 Nov 26.
    OpenUrlCrossRefPubMed
  9. 9.
    1. Bello S,
    2. Ferguson C,
    3. Wallis R.
    Improvements to the newborn bloodspot screening service are required to meet national standards. J Med Screen 2010;17(3):114-20.
    OpenUrlCrossRefPubMed
  10. 10.
    1. Kemper AR,
    2. Uren RL,
    3. Moseley KL,
    4. Clark SJ.
    Primary care physicians’ attitudes regarding follow-up care for children with positive newborn screening results. Pediatrics 2006;118(5):1836-41.
    OpenUrlAbstract/FREE Full Text
  11. 11.
    1. Kai J,
    2. Ulph F,
    3. Cullinan T,
    4. Qureshi N.
    Communication of carrier status information following universal newborn screening for sickle cell disorders and cystic fibrosis: qualitative study of experience and practice. Health Technol Assess 2009;13(57):1-82.
    OpenUrlCrossRefPubMed
  12. 12.
    1. Newborn Screening Ontario
    . Newborn Screening Ontario annual public report. Calendar year 2012. Ottawa, ON: Newborn Screening Ontario; 2013. Available from: https://www.newbornscreening.on.ca/sites/default/files/2012_nso_annual_public_report.pdf. Accessed 2015 Aug 4.
  13. 13.
    1. Hayeems RZ,
    2. Miller FA,
    3. Vermeulen M,
    4. Potter BK,
    5. Chakraborty P,
    6. Davies C, et al.
    False-positive newborn screening for cystic fibrosis and health care use. Pediatrics 2017;140(5):e20170604. Epub 2017 Oct 12.
    OpenUrlAbstract/FREE Full Text
  14. 14.
    1. Hayeems RZ,
    2. Miller FA,
    3. Barg CJ,
    4. Bombard Y,
    5. Kerr E,
    6. Tam K, et al.
    Parent experience with false-positive newborn screening results for cystic fibrosis. Pediatrics 2016;138(3):e20161052. Epub 2016 Aug 2.
    OpenUrlAbstract/FREE Full Text
  15. 15.
    1. Hayeems RZ,
    2. Miller FA,
    3. Barg CJ,
    4. Bombard Y,
    5. Carroll JC,
    6. Tam K, et al.
    Psychosocial response to uncertain newborn screening results for cystic fibrosis. J Pediatr 2017;184:165-71.e1. Epub 2017 Mar 6.
    OpenUrlPubMed
  16. 16.
    1. Newborn Screening Ontario
    . Screening results. Cystic fibrosis (CF). Ottawa, ON: Newborn Screening Ontario; 2019. Available from: https://www.newbornscreening.on.ca/en/disease/cystic-fibrosis-cf. Accessed 2018 Dec 15.
  17. 17.
    1. Ciske DJ,
    2. Haavisto A,
    3. Laxova A,
    4. Rock LZ,
    5. Farrell PM.
    Genetic counseling and neonatal screening for cystic fibrosis: an assessment of the communication process. Pediatrics 2001;107(4):699-705.
    OpenUrlAbstract/FREE Full Text
  18. 18.
    1. Tluczek A,
    2. Mischler EH,
    3. Farrell PM,
    4. Fost N,
    5. Peterson NM,
    6. Carey P, et al.
    Parents’ knowledge of neonatal screening and response to false-positive cystic fibrosis testing. J Dev Behav Pediatr 1992;13(3):181-6.
    OpenUrlPubMed
  19. 19.
    1. Thompson DB,
    2. Ahrens MJ,
    3. LeRoy BS,
    4. Brown D,
    5. Berry SA.
    Newborn blood spot screening and genetic services: a survey of Minnesota primary care physicians. Genet Med 2005;7(8):564-70.
    OpenUrlCrossRefPubMed
  20. 20.
    1. Hayeems RZ,
    2. Miller FA,
    3. Little J,
    4. Carroll JC,
    5. Allanson J,
    6. Chakraborty P, et al.
    Informing parents about expanded newborn screening: influences on provider involvement. Pediatrics 2009;124(3):950-8. Epub 2009 Aug 10.
    OpenUrlAbstract/FREE Full Text
  21. 21.
    1. Lang CW,
    2. Stark AP,
    3. Acharya K,
    4. Ross LF.
    Maternal knowledge and attitudes about newborn screening for sickle cell disease and cystic fibrosis. Am J Med Genet A 2009;149A(11):2424-9.
    OpenUrl
  22. 22.
    1. Koopmans J,
    2. Ross LF.
    Does familiarity breed acceptance? The influence of policy on physicians’ attitudes toward newborn screening programs. Pediatrics 2006;117(5):1477-85.
    OpenUrlAbstract/FREE Full Text
  23. 23.
    1. Acharya K,
    2. Ackerman PD,
    3. Ross LF.
    Pediatricians’ attitudes toward expanding newborn screening. Pediatrics 2005;116(4):e476-84.
    OpenUrlAbstract/FREE Full Text
  24. 24.
    1. Gennaccaro M,
    2. Waisbren SE,
    3. Marsden D.
    The knowledge gap in expanded newborn screening: survey results from paediatricians in Massachusetts. J Inherit Metab Dis 2005;28(6):819-24.
    OpenUrlCrossRefPubMed
  25. 25.
    1. Dulai GS,
    2. Farmer MM,
    3. Ganz PA,
    4. Bernaards CA,
    5. Qi K,
    6. Dietrich AJ, et al.
    Primary care provider perceptions of barriers to and facilitators of colorectal cancer screening in a managed care setting. Cancer 2004;100(9):1843-52.
    OpenUrlCrossRefPubMed
  26. 26.
    1. Donnelly P,
    2. Hiller L,
    3. Bathers S,
    4. Bowden S,
    5. Coleman R.
    Questioning specialists’ attitudes to breast cancer follow-up in primary care. Ann Oncol 2007;18(9):1467-76. Epub 2007 May 24.
    OpenUrlCrossRefPubMed
  27. 27.
    1. Sargeant J,
    2. Murray A,
    3. Gray J,
    4. Ferrier S,
    5. Barnard D,
    6. Padmos A, et al.
    Responding to rising cancer caseloads: family physician learning needs and challenges in cancer care. J Cancer Educ 2005;20(3):155-61.
    OpenUrlCrossRefPubMed
  28. 28.
    1. Currier RJ,
    2. Sciortino S,
    3. Liu R,
    4. Bishop T,
    5. Alikhani Koupaei R,
    6. Feuchtbaum L.
    Genomic sequencing in cystic fibrosis newborn screening: what works best, two-tier predefined CFTR mutation panels or second-tier CFTR panel followed by third-tier sequencing? Genet Med 2017;19(10):1159-63. Epub 2017 May 4.
    OpenUrl
  29. 29.
    1. Gammon BL,
    2. Kraft SA,
    3. Michie M,
    4. Allyse M.
    “I think we’ve got too many tests!”: prenatal providers’ reflections on ethical and clinical challenges in the practice integration of cell-free DNA screening. Ethics Med Public Health 2016;2(3):334-42.
    OpenUrl
  30. 30.
    1. Vassy JL,
    2. Christensen KD,
    3. Schonman EF,
    4. Blout CL,
    5. Robinson JO,
    6. Krier JB, et al.
    The impact of whole-genome sequencing on the primary care and outcomes of healthy adult patients: a pilot randomized trial. Ann Intern Med 2017;167(3):159-69.
    OpenUrlCrossRefPubMed
  31. 31.
    1. Christensen KD,
    2. Vassy JL,
    3. Jamal L,
    4. Lehmann LS,
    5. Slashinski MJ,
    6. Perry DL, et al.
    Are physicians prepared for whole genome sequencing? A qualitative analysis. Clin Genet 2016;89(2):228-34. Epub 2015 Jul 7.
    OpenUrlCrossRefPubMed
  32. 32.
    National Physician Survey 2014. Mississauga, ON: College of Family Physicians of Canada, Royal College of Physicians and Surgeons of Canada, Canadian Medical Association; 2014.
  33. 33.
    1. Carroll JC,
    2. Hayeems RZ,
    3. Miller FA,
    4. Barg CJ,
    5. Bombard Y,
    6. Chakraborty P, et al.
    Newborn screening for cystic fibrosis. Role of primary care providers in caring for infants with positive screening results. Can Fam Physician 2021;67:e144-52.
    OpenUrlAbstract/FREE Full Text
  34. 34.
    1. Mikat-Stevens NA,
    2. Larson IA,
    3. Tarini BA.
    Primary-care providers’ perceived barriers to integration of genetics services: a systematic review of the literature. Genet Med 2015;17(3):169-76. Epub 2014 Sep 11.
    OpenUrlCrossRefPubMed
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Primary care providers’ role in newborn screening result notification for cystic fibrosis
Robin Z. Hayeems, Fiona A. Miller, Carolyn J. Barg, Yvonne Bombard, Pranesh Chakraborty, Beth K. Potter, Sarah Patton, Jessica Peace Bytautas, Karen Tam, Louise Taylor, Elizabeth Kerr, Christine Davies, Jennifer Milburn, Felix Ratjen, Astrid Guttmann, June C. Carroll
Canadian Family Physician Jun 2021, 67 (6) 439-448; DOI: 10.46747/cfp.6706439
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